Density matrix - Knowledge

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transitions from being a pure state, exhibiting superpositions, to a mixed state, an incoherent combination of classical alternatives. This transition is fundamentally reversible, as the combined state of system and environment is still pure, but for all practical purposes irreversible, as the environment is a very large and complex quantum system, and it is not feasible to reverse their interaction. Decoherence is thus very important for explaining the

4718: 5945: 3087: 4495: 1236: 5682: 3520: 4713:{\displaystyle \rho ={\frac {1}{2}}|\mathrm {R} \rangle \langle \mathrm {R} |+{\frac {1}{2}}|\mathrm {L} \rangle \langle \mathrm {L} |={\frac {1}{2}}|\mathrm {H} \rangle \langle \mathrm {H} |+{\frac {1}{2}}|\mathrm {V} \rangle \langle \mathrm {V} |={\frac {1}{2}}{\begin{pmatrix}1&0\\0&1\end{pmatrix}}.} 4826:

A given density operator does not uniquely determine which ensemble of pure states gives rise to it; in general there are infinitely many different ensembles generating the same density matrix. Those cannot be distinguished by any measurement. The equivalent ensembles can be completely characterized:

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theory typically involves non-isolated quantum systems developing entanglement with other systems, including measurement apparatuses. Density matrices make it much easier to describe the process and calculate its consequences. Quantum decoherence explains why a system interacting with an environment

8112: 1066: 5940:{\displaystyle \langle A\rangle =\sum _{j}p_{j}\langle \psi _{j}|A|\psi _{j}\rangle =\sum _{j}p_{j}\operatorname {tr} \left(|\psi _{j}\rangle \langle \psi _{j}|A\right)=\operatorname {tr} \left(\sum _{j}p_{j}|\psi _{j}\rangle \langle \psi _{j}|A\right)=\operatorname {tr} (\rho A),} 3344: 2220: 1677: 5103: 4727:

with a rough surface, so that slightly different parts of the light beam acquire different polarizations. Another possibility is using entangled states: a radioactive decay can emit two photons traveling in opposite directions, in the quantum state

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Density matrices are a basic tool of quantum mechanics, and appear at least occasionally in almost any type of quantum-mechanical calculation. Some specific examples where density matrices are especially helpful and common are as follows:

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The C*-algebraic formulation can be seen to include both classical and quantum systems. When the system is classical, the algebra of observables become an abelian C*-algebra. In that case the states become probability measures.

1840: 4360:(linear, circular, or elliptical polarization). Unlike polarized light, it passes through a polarizer with 50% intensity loss whatever the orientation of the polarizer; and it cannot be made polarized by passing it through any 6322: 2980: 2808: 8246: 7937: 7470: 106: 8909:

It is now generally accepted that the description of quantum mechanics in which all self-adjoint operators represent observables is untenable. For this reason, observables are identified with elements of an abstract

5663: 4228: 5195: 4358: 3878: 9002:. Von Neumann introduced the density matrix in order to develop both quantum statistical mechanics and a theory of quantum measurements. The name density matrix itself relates to its classical correspondence to a 4488:

with probability 1/2. These two ensembles are completely indistinguishable experimentally, and therefore they are considered the same mixed state. For this example of unpolarized light, the density operator equals

2068: 1486: 1231:{\displaystyle (\rho _{ij})=\left({\begin{matrix}\rho _{00}&\rho _{01}\\\rho _{10}&\rho _{11}\end{matrix}}\right)=\left({\begin{matrix}p_{0}&\rho _{01}\\\rho _{01}^{*}&p_{1}\end{matrix}}\right)} 3676: 8898: 3515:{\displaystyle \sigma _{x}={\begin{pmatrix}0&1\\1&0\end{pmatrix}},\quad \sigma _{y}={\begin{pmatrix}0&-i\\i&0\end{pmatrix}},\quad \sigma _{z}={\begin{pmatrix}1&0\\0&-1\end{pmatrix}}.} 7790: 6026: 3743: 7096: 6076: 1985: 6397: 8660: 7903: 7261: 2552: 5001: 2656: 4993: 3597: 8487: 6936: 6729: 5551: 1875: 1765:

a convenient representation for the state of this ensemble. It is easy to check that this operator is positive semi-definite, Hermitian, and has trace one. Conversely, it follows from the

5252: 4879: 3944: 2470:, of other quantum states. There are several equivalent characterizations of pure states in the language of density operators. A density operator represents a pure state if and only if: 8681:

of quantum mechanics, but cannot explain wave function collapse, as all classical alternatives are still present in the mixed state, and wave function collapse selects only one of them.

2456: 2247: 6161: 2287: 1686: 8322: 7648: 6658: 4486: 4456: 4426: 4396: 4292: 4262: 4164: 4134: 4100: 4070: 3822: 3792: 953:). In this case, the density matrix of an entangled system differs from that of an ensemble of pure states that, combined, would give the same statistical results upon measurement. 8555: 5968: 3332: 8804: 6691: 5287: 2881: 2846: 2733: 2698: 2282: 2063: 1396: 7682: 7315: 2988: 2605: 4935: 5462: 2504: 2372: 1937: 3157: 1338: 7340: 7194: 7496: 4731: 4723:

There are also other ways to generate unpolarized light: one possibility is to introduce uncertainty in the preparation of the photon, for example, passing it through a

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Ardila, Luis; Heyl, Markus; Eckardt, André (28 December 2018). "Measuring the Single-Particle Density Matrix for Fermions and Hard-Core Bosons in an Optical Lattice".

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which can be interpreted as the state produced by performing the measurement but not recording which outcome occurred, has a von Neumann entropy larger than that of

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is a process by which, given a set of data representing the results of quantum measurements, a density matrix consistent with those measurement results is computed.

8595: 7368: 7284: 7169: 7146: 6997: 6757: 6749: 6538: 6518: 6490: 6427: 6226: 6191: 5578: 5482: 5427: 1902: 1423: 7822: 8824: 8769: 8749: 8575: 6470: 6102: 5510: 5307: 4899: 2005: 1451: 2381: 5315: 9730:; Fuchs, Christopher A.; Manne, Kiran K.; Renes, Joseph M. (2004). "Gleason-Type Derivations of the Quantum Probability Rule for Generalized Measurements". 7924: 8107:{\displaystyle W(x,p)\,\ {\stackrel {\mathrm {def} }{=}}\ \,{\frac {1}{\pi \hbar }}\int _{-\infty }^{\infty }\psi ^{*}(x+y)\psi (x-y)e^{2ipy/\hbar }\,dy.} 1772: 942:

when the preparation of the systems lead to numerous pure states in the ensemble, and thus one must deal with the statistics of possible preparations, and

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uses density matrices, most prominently to express the idea that a system is prepared at a nonzero temperature. Constructing a density matrix using a

7402: 7379: 10911: 6234: 8696:, and other fields where state preparation is noisy and decoherence can occur, density matrices are frequently used. Noise is often modelled via a 36: 9016:

In contrast, the motivation that inspired Landau was the impossibility of describing a subsystem of a composite quantum system by a state vector.

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is pure, but the density matrix for each photon individually, found by taking the partial trace of the joint density matrix, is completely mixed.

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do not have orthogonal supports, the sum on the right-hand side is strictly greater than the von Neumann entropy of the convex combination

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is the wavefunction propagator over some interval, then the time evolution of the density matrix over that same interval is given by

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with another, without describing their combined state; this case is typical for a system interacting with some environment (e.g.

580: 11721: 11294: 9624: 9041: 2215:{\displaystyle p(m)=\left\langle \Psi \right|\left(\Pi _{m}\otimes I\right)\left|\Psi \right\rangle =\operatorname {tr} \left,} 1672:{\displaystyle p(m)=\sum _{j}p_{j}\left\langle \psi _{j}\right|\Pi _{m}\left|\psi _{j}\right\rangle =\operatorname {tr} \left,} 353: 1911:

Another motivation for the definition of density operators comes from considering local measurements on entangled states. Let

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are states that have support on orthogonal subspaces, then the von Neumann entropy of a convex combination of these states,

12086: 11578: 11135: 10901: 9282: 8604: 7830: 5098:{\displaystyle {\sqrt {q_{i}}}\left|\varphi _{i}\right\rangle =\sum _{j}U_{ij}{\sqrt {p_{j}}}\left|\psi _{j}\right\rangle } 459: 3098:, each point on the unit sphere stands for a pure state. All other density matrices correspond to points in the interior. 2661:

It is important to emphasize the difference between a probabilistic mixture (i.e. an ensemble) of quantum states and the

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shows that in Hilbert spaces of dimension 3 or larger the assumption of linearity can be replaced with an assumption of

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on subsystem 1. It is easy to check that this operator has all the properties of a density operator. Conversely, the

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polarization with probability 1/2. The same behavior would occur if each photon had either vertical polarization

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or each having an independent single-particle wavefunction. This is the usual starting point when building the

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Density matrices are thus crucial tools in areas of quantum mechanics that deal with mixed ensembles, such as

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represent pure states, while mixed states are represented by points in the interior. This is known as the

3069:{\displaystyle |\psi \rangle \langle \psi |={\frac {1}{2}}{\begin{pmatrix}1&1\\1&1\end{pmatrix}}.} 1904:

that are non-negative and add up to one. However, this representation will not be unique, as shown by the

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Fano, U. (1957). "Description of States in Quantum Mechanics by Density Matrix and Operator Techniques".

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is obtained. In the case where the measurement result is not known the ensemble is instead described by

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The evolution equation for the Wigner function is then analogous to that of its classical limit, the

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If one assumes that the probabilities of measurement outcomes are linear functions of the projectors

4904: 516: 477: 430: 405: 328: 188: 7486:, even though this equation seems at first look to emulate the Heisenberg equation of motion in the 5432: 2481: 2349: 1914: 11911: 11891: 11881: 11871: 11827: 11402: 11140: 11030: 10738: 10418: 9036: 8663: 7596:{\displaystyle i\hbar {\frac {\operatorname {d} A^{(\mathrm {H} )}}{\operatorname {d} t}}=-\left~,} 4801:{\displaystyle (|\mathrm {R} ,\mathrm {L} \rangle +|\mathrm {L} ,\mathrm {R} \rangle )/{\sqrt {2}}} 1348: 600: 7289: 1307: 11606: 11532: 11175: 11104: 10986: 10846: 10443: 10330: 10047:

Granade, Christopher; Combes, Joshua; Cory, D. G. (2016-01-01). "Practical Bayesian tomography".

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a convenient tool to calculate the probabilities of these local measurements. It is known as the

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of the system. This definition can be motivated by considering a situation where each pure state

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of each other (also called coherences); they are restricted in magnitude by the requirement that

769: 487: 395: 12020: 11568: 7385: 6618:{\displaystyle \rho =\textstyle \sum _{i}\lambda _{i}|\varphi _{i}\rangle \langle \varphi _{i}|} 1275: 1247: 1034: 1006: 445: 343: 109: 11931: 11706: 11686: 11611: 11479: 11045: 10628: 10433: 9732: 9661: 9580: 8720: 7691:

If the Hamiltonian is time-independent, the von Neumann equation can be easily solved to yield

7104: 6944: 6855: 6493: 5971: 5115:, which are pure states that generate the density operator when a partial trace is taken. Let 4031:{\displaystyle |\mathrm {V} \rangle =(|\mathrm {R} \rangle +|\mathrm {L} \rangle )/{\sqrt {2}}} 3125: 2343: 2335:{\displaystyle \rho =\operatorname {tr} _{2}\left|\Psi \right\rangle \left\langle \Psi \right|} 1758:{\displaystyle \rho =\sum _{j}p_{j}\left|\psi _{j}\right\rangle \left\langle \psi _{j}\right|,} 989: 774: 492: 320: 290: 253: 11522: 9877: 8366: 7483: 6842:{\displaystyle S=-\sum _{i}\lambda _{i}\ln \lambda _{i}=-\operatorname {tr} (\rho \ln \rho ).} 5516:

of the system, and suppose the ensemble is in a mixed state such that each of the pure states

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will give rise to the same density operator, and all equivalent ensembles are of this form.

11987: 11916: 11861: 11591: 11414: 11372: 11185: 10543: 10373: 10353: 10127: 10066: 10013: 9804: 9751: 9685: 9664:(2003). "Quantum States and Generalized Observables: A Simple Proof of Gleason's Theorem". 9647: 9546: 9503: 9398: 9109: 8580: 7396:) describes how a density operator evolves in time. The von Neumann equation dictates that 7353: 7269: 7154: 7131: 6975: 6734: 6523: 6503: 6475: 6430: 6405: 6204: 6169: 5556: 5467: 5412: 4724: 3080: 1880: 1401: 1356: 946: 899: 560: 472: 198: 155: 7798: 804: 8: 12096: 11972: 11941: 11886: 11866: 11774: 11731: 11586: 11512: 11439: 11429: 11341: 11206: 11180: 10758: 10563: 10553: 9763: 9619: 9006: 8693: 8685: 8673: 8666:

can be applied, where the states summed over to make the density matrix are drawn from a

6450: 6194: 3947: 3753: 2423:{\displaystyle \operatorname {tr} _{2}\left|\Psi \right\rangle \left\langle \Psi \right|} 1454: 966: 962: 950: 659: 467: 385: 213: 193: 145: 10131: 10078: 10070: 10017: 9808: 9755: 9689: 9550: 9507: 9402: 9113: 5399:{\displaystyle |\Psi \rangle =\sum _{j}{\sqrt {p_{j}}}|\psi _{j}\rangle U|a_{j}\rangle } 12032: 11901: 11799: 11507: 11454: 11346: 11257: 11211: 11201: 11155: 11150: 11079: 11015: 10881: 10618: 10613: 10548: 10538: 10403: 10308: 10267: 10206: 10178: 10151: 10117: 10090: 10056: 10029: 10003: 9828: 9794: 9767: 9741: 9709: 9675: 9562: 9536: 9527: 9494: 9471: 9422: 9388: 9359: 9323: 8809: 8754: 8734: 8724: 8705: 8560: 8425: 7487: 6455: 6087: 5495: 5292: 4884: 4039: 3115: 2467: 2466:

A pure quantum state is a state that can not be written as a probabilistic mixture, or

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Andrzej Grudka; Paweł Kurzyński (2008). "Is There Contextuality for a Single Qubit?".

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A closely related fact is that a given density operator has infinitely many different

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of that set. The simplest case is that of a two-dimensional Hilbert space, known as a

910:(even if the ensemble contains only one system). It allows for the calculation of the 12042: 11951: 11921: 11849: 11812: 11807: 11789: 11754: 11744: 11459: 11424: 11407: 11310: 11268: 11252: 11055: 11050: 11040: 11020: 10981: 10976: 10805: 10800: 10785: 10780: 10771: 10766: 10713: 10608: 10558: 10503: 10473: 10468: 10448: 10438: 10398: 10312: 10271: 10210: 10182: 10143: 10082: 10033: 9976: 9966: 9933: 9909: 9883: 9856: 9820: 9701: 9615: 9596: 9566: 9475: 9463: 9414: 9351: 9341: 9297: 9287: 9233: 9189: 9153: 9143: 9077: 9046: 8922: 8340: 6437:. This restriction on the dimension can be removed by assuming non-contextuality for 4297: 1835:{\textstyle \sum _{j}p_{j}\left|\psi _{j}\right\rangle \left\langle \psi _{j}\right|} 1301: 887: 814: 789: 729: 724: 624: 590: 570: 168: 27: 10155: 10094: 9832: 9771: 9522: 9489: 9426: 8917:(that is one without a distinguished representation as an algebra of operators) and 11769: 11764: 11621: 11517: 11263: 11231: 11160: 11099: 11094: 11074: 11010: 10916: 10886: 10871: 10851: 10790: 10743: 10718: 10708: 10679: 10598: 10593: 10568: 10498: 10478: 10388: 10368: 10300: 10263: 10229: 10139: 10135: 10074: 10021: 9816: 9812: 9759: 9727: 9713: 9693: 9633: 9588: 9554: 9511: 9455: 9406: 9363: 9333: 9181: 9135: 9117: 8991: 8960: 8930: 8728: 6852:

This definition implies that the von Neumann entropy of any pure state is zero. If

6541: 6497: 4938: 4231: 3148: 2975:{\displaystyle |\psi \rangle =(|\psi _{1}\rangle +|\psi _{2}\rangle )/{\sqrt {2}},} 2803:{\displaystyle \rho ={\frac {1}{2}}{\begin{pmatrix}1&0\\0&1\end{pmatrix}},} 1766: 1352: 819: 809: 799: 699: 679: 664: 634: 502: 390: 10856: 10025: 9697: 9592: 8662:. If the number of particles involved in the system is itself not certain, then a 4102:

polarized light, half of the photons are absorbed in both cases. This may make it

11999: 11926: 11906: 11876: 11839: 11834: 11739: 11563: 10961: 10896: 10876: 10861: 10841: 10825: 10723: 10654: 10644: 10603: 10488: 10458: 9846: 9643: 9185: 8970:) correspond exactly to the density operators, and therefore the pure states of 8678: 8241:{\displaystyle {\frac {\partial W(x,p,t)}{\partial t}}=-\{\{W(x,p,t),H(x,p)\}\},} 6969: 6429:, then they must be given by the trace of the projector with a density operator. 978: 903: 844: 714: 694: 440: 280: 7465:{\displaystyle i\hbar {\frac {\operatorname {d} \rho }{\operatorname {d} t}}=~,} 2883:

are assumed orthogonal and of dimension 2, for simplicity. On the other hand, a

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of two states. If an ensemble is prepared to have half of its systems in state

779: 739: 719: 689: 669: 619: 435: 425: 218: 9638: 9410: 9337: 6317:{\displaystyle \rho _{i}'={\frac {P_{i}\rho P_{i}}{\operatorname {tr} \left}}} 12075: 11896: 11749: 11640: 11474: 11444: 11397: 11226: 11084: 11025: 10956: 10946: 10941: 10866: 10795: 10669: 10659: 10588: 10508: 10493: 10428: 10170: 10086: 9980: 9952: 9515: 9467: 9418: 9355: 9301: 9157: 9121: 8325: 2475: 2250: 1360: 1060: 985:. The density matrix is obtained from the density operator by a choice of an 911: 907: 839: 834: 764: 734: 704: 575: 521: 248: 223: 101:{\displaystyle i\hbar {\frac {d}{dt}}|\Psi \rangle ={\hat {H}}|\Psi \rangle } 9525:(2006-04-03). "Concerning the state-change due to the measurement process". 11779: 11392: 11387: 11109: 11066: 10971: 10684: 10623: 10533: 10413: 10147: 9824: 9705: 9558: 8719:, an imperfect but useful first approximation is to treat the electrons as 8577:

is the system's Hamiltonian. The normalization condition that the trace of

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be described as a statistical ensemble, e. g. as each photon having either

3600: 3091: 938:). Mixed ensembles arise in quantum mechanics in two different situations: 923: 829: 824: 759: 744: 709: 203: 8990:

The formalism of density operators and matrices was introduced in 1927 by

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This equation only holds when the density operator is taken to be in the

5658:{\displaystyle \rho =\sum _{j}p_{j}|\psi _{j}\rangle \langle \psi _{j}|.} 4223:{\displaystyle (|\mathrm {R} \rangle +|\mathrm {L} \rangle )/{\sqrt {2}}} 3335: 1241: 986: 794: 749: 684: 639: 5190:{\displaystyle \rho =\sum _{j}p_{j}|\psi _{j}\rangle \langle \psi _{j}|} 4353:{\displaystyle \alpha |\mathrm {R} \rangle +\beta |\mathrm {L} \rangle } 3873:{\displaystyle \alpha |\mathrm {R} \rangle +\beta |\mathrm {L} \rangle } 3611: 11002: 10463: 10304: 9459: 9446: 8995: 8911: 8667: 8329: 7476: 6198: 5513: 4361: 3103: 2568: 927: 784: 754: 674: 649: 644: 629: 11671: 11367: 11236: 10810: 9441: 9176:

Hall, Brian C. (2013). "Systems and Subsystems, Multiple Particles".

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The equation for the time evolution of the Wigner function, known as

3958:. Consider now a vertically polarized photon, described by the state 919: 275: 11279: 8948:. By properties of the GNS construction these states correspond to 11170: 10203:

Algebraic methods in statistical mechanics and quantum field theory

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Kirkpatrick, K. A. (February 2006). "The Schrödinger-HJW Theorem".

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reduces to the classical Liouville probability density function in

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Liouville's theorem (Hamiltonian) § Quantum Liouville equation

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and a projective measurement as in the previous section, the state

654: 9799: 9328: 9180:. Graduate Texts in Mathematics. Vol. 267. pp. 419–440. 8121:, is then the Wigner-transform of the above von Neumann equation, 3671:{\displaystyle {\begin{bmatrix}0.5&0\\0&0.5\end{bmatrix}}} 10322: 9009:(probability distribution of position and momentum) in classical 8978:) are exactly the pure states in the sense of quantum mechanics. 6441:

as well, but this has been criticized as physically unmotivated.

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Unlike the probabilistic mixture, this superposition can display

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is a state that is an extreme point of the set of all states on

8893:{\textstyle \sum _{i=1}^{N}|\psi _{i}\rangle \langle \psi _{i}|} 7785:{\displaystyle \rho (t)=e^{-iHt/\hbar }\rho (0)e^{iHt/\hbar }.} 6021:{\displaystyle \langle A\rangle =\langle \psi |A|\psi \rangle } 4234:

there is no absorption whatsoever, but if we pass either state

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Fano, Ugo (1995). "Density matrices as polarization vectors".

10233: 7373: 3738:{\displaystyle {\begin{bmatrix}1&0\\0&0\end{bmatrix}}} 3122:, which together with the identity matrix provide a basis for 10234:"Wahrscheinlichkeitstheoretischer Aufbau der Quantenmechanik" 9784: 7091:{\displaystyle S(\rho )=H(p_{i})+\sum _{i}p_{i}S(\rho _{i}).} 6472:

of a mixture can be expressed in terms of the eigenvalues of

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can be calculated by extending from the case of pure states:

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is an orthogonal basis, and furthermore all purifications of

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electrons together can be characterized by a density matrix

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not necessarily orthogonal. Then for all partial isometries

1980:{\displaystyle {\mathcal {H}}_{1}\otimes {\mathcal {H}}_{2}} 1769:

that every operator with these properties can be written as

922:. It is a generalization of the more usual state vectors or 8712: 7908: 7347: 6731:. Then the entropy of a quantum system with density matrix 6438: 3114:. An arbitrary mixed state for a qubit can be written as a 1347:

In operator language, a density operator for a system is a

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that sum to one (also called populations of the two states

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Matrix describing a quantum system in a pure or mixed state

9492:(1950). "Über die Zustandsänderung durch den Messprozeß". 4815: 1939:

be a pure entangled state in the composite Hilbert space

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When analyzing a system with many electrons, such as an

1063:, then the density operator is represented by the matrix 3686:(3), the remaining photons are all vertically polarized 8832: 6700: 6557: 5523: 4676: 3704: 3637: 3475: 3419: 3366: 3032: 2766: 1775: 1164: 1097: 9620:"Measures on the closed subspaces of a Hilbert space" 8904: 8812: 8777: 8757: 8737: 8655:{\displaystyle Z(\beta )=\mathrm {tr} \exp(-\beta H)} 8607: 8583: 8563: 8515: 8495: 8434: 8369: 8349: 8292: 8257: 8130: 7940: 7898:{\displaystyle \rho (t)=G(t)\rho (0)G(t)^{\dagger }.} 7833: 7801: 7700: 7664: 7612: 7499: 7405: 7356: 7323: 7292: 7272: 7205: 7177: 7157: 7134: 7107: 7008: 6978: 6947: 6888: 6858: 6760: 6737: 6699: 6666: 6631: 6550: 6526: 6506: 6478: 6458: 6408: 6340: 6237: 6207: 6172: 6113: 6090: 6037: 5980: 5956: 5685: 5589: 5559: 5522: 5498: 5470: 5435: 5415: 5318: 5295: 5260: 5206: 5124: 5004: 4947: 4907: 4887: 4833: 4734: 4498: 4464: 4434: 4404: 4374: 4314: 4270: 4240: 4172: 4142: 4112: 4078: 4048: 3964: 3886: 3834: 3800: 3770: 3698: 3631: 3531: 3347: 3281: 3160: 3128: 2991: 2897: 2854: 2819: 2744: 2706: 2671: 2619: 2577: 2512: 2484: 2436: 2384: 2378:

implies that all density operators can be written as

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when one wants to describe a physical system that is

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performed upon the systems of the ensemble using the

39: 9726: 7927:, the density matrix transforms into the equivalent 7919:

The density matrix operator may also be realized in

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operator; but in this picture the density matrix is

6941:

is given by the von Neumann entropies of the states

6228:, the post-measurement density operator is given by 9171: 9169: 9167: 2547:{\displaystyle \rho =|\psi \rangle \langle \psi |.} 8892: 8818: 8798: 8763: 8743: 8654: 8589: 8569: 8549: 8501: 8481: 8396: 8355: 8316: 8278: 8240: 8106: 7897: 7816: 7784: 7676: 7642: 7595: 7464: 7362: 7334: 7309: 7278: 7255: 7188: 7163: 7140: 7120: 7090: 6991: 6960: 6930: 6871: 6841: 6743: 6723: 6685: 6652: 6617: 6532: 6512: 6484: 6464: 6421: 6392:{\displaystyle \;\rho '=\sum _{i}P_{i}\rho P_{i}.} 6391: 6316: 6220: 6185: 6155: 6096: 6070: 6020: 5962: 5939: 5657: 5572: 5545: 5504: 5476: 5456: 5421: 5398: 5301: 5281: 5246: 5200:be the density operator generated by the ensemble 5189: 5097: 4987: 4929: 4893: 4873: 4800: 4712: 4480: 4450: 4420: 4390: 4352: 4286: 4256: 4222: 4158: 4128: 4094: 4064: 4030: 3938: 3872: 3816: 3786: 3737: 3670: 3591: 3514: 3326: 3264: 3140: 3068: 2974: 2875: 2840: 2802: 2727: 2692: 2650: 2599: 2546: 2498: 2450: 2422: 2366: 2334: 2276: 2241: 2214: 2057: 2026: 1999: 1987:. The probability of obtaining measurement result 1979: 1931: 1896: 1869: 1834: 1757: 1671: 1475: 1445: 1417: 1390: 1332: 1292: 1264: 1230: 1051: 1023: 100: 10107: 10046: 9875: 5580:. Then the corresponding density operator equals 3102:Geometrically, the set of density operators is a 2651:{\displaystyle \operatorname {tr} (\rho ^{2})=1.} 12073: 10258:"The Damping Problem in Wave Mechanics (1927)". 9994:Schlosshauer, M. (2019). "Quantum Decoherence". 9587:, Springer Berlin Heidelberg, pp. 356–358, 9164: 7256:{\displaystyle \rho '=\sum _{i}P_{i}\rho P_{i},} 992:in the underlying space. In practice, the terms 8994:and independently, but less systematically, by 8343:. In the limit of vanishing Planck's constant 6540:is a positive semi-definite operator, it has a 4988:{\displaystyle \{q_{i},|\varphi _{i}\rangle \}} 3592:{\displaystyle r_{x}^{2}+r_{y}^{2}+r_{z}^{2}=1} 9927: 9876:Breuer, Heinz; Petruccione, Francesco (2002), 8482:{\displaystyle \rho =\exp(-\beta H)/Z(\beta )} 7388:describes how pure states evolve in time, the 6931:{\displaystyle \rho =\sum _{i}p_{i}\rho _{i},} 6724:{\displaystyle \textstyle \sum \lambda _{i}=1} 3682:After passing through vertical plane polarizer 3606: 2735:, it can be described by the density matrix: 11295: 10338: 10253: 10251: 10175:Mathematical Foundations of Quantum Mechanics 9255:Reduced Density Matrices in Quantum Chemistry 9221: 9076:(2. ed., ed.). New York, NY: Springer. 8933:, we can recover Hilbert spaces that realize 5546:{\displaystyle \textstyle |\psi _{j}\rangle } 3764:, described by the orthogonal quantum states 3619:(1) emits completely random polarized photons 1870:{\displaystyle \left|\psi _{j}\right\rangle } 1429:of pure states. The probability of obtaining 867: 9993: 9987: 9845: 9322:(2nd ed.). Cambridge University Press. 9217: 9215: 9213: 9211: 9209: 9207: 9205: 8940:Geometrically, a pure state on a C*-algebra 8872: 8869: 8793: 8311: 8308: 8296: 8293: 8232: 8229: 8181: 8178: 7671: 7665: 6647: 6596: 6593: 6044: 6038: 6015: 5993: 5987: 5981: 5887: 5884: 5809: 5806: 5754: 5718: 5692: 5686: 5634: 5631: 5539: 5451: 5393: 5372: 5327: 5276: 5247:{\displaystyle \{p_{j},|\psi _{j}\rangle \}} 5241: 5238: 5207: 5169: 5166: 4982: 4979: 4948: 4881:be an ensemble. Then for any complex matrix 4874:{\displaystyle \{p_{j},|\psi _{j}\rangle \}} 4868: 4865: 4834: 4780: 4756: 4645: 4642: 4606: 4603: 4567: 4564: 4528: 4525: 4475: 4445: 4415: 4385: 4347: 4328: 4281: 4251: 4202: 4186: 4153: 4123: 4089: 4059: 4010: 3994: 3975: 3939:{\displaystyle |\alpha |^{2}+|\beta |^{2}=1} 3867: 3848: 3811: 3781: 3003: 3000: 2951: 2930: 2906: 2870: 2835: 2722: 2687: 2530: 2527: 2493: 2361: 1926: 1385: 1287: 1259: 1046: 1018: 977:The density matrix is a representation of a 972: 95: 69: 10228: 10040: 9376: 9225:Quantum Computation and Quantum Information 7374:The von Neumann equation for time evolution 7350:, to have a lower von Neumann entropy than 11302: 11288: 10912:Fundamental (linear differential equation) 10345: 10331: 10248: 9579: 9095: 9093: 9013:, which was introduced by Wigner in 1932. 6341: 3334:are the coordinates of a point within the 874: 860: 10121: 10060: 10007: 9798: 9745: 9679: 9637: 9540: 9392: 9327: 9202: 8094: 7990: 7959: 3760:can be described as having right or left 2451:{\displaystyle \left|\Psi \right\rangle } 10177:, Dover Books on Mathematics, New York: 9882:, Oxford University Press, p. 110, 9852:Quantum Computing: A Gentle Introduction 9252: 9222:Nielsen, Michael; Chuang, Isaac (2000), 7909:Wigner functions and classical analogies 3610: 3085: 2461: 11217:Matrix representation of conic sections 9901: 9839: 9614: 9246: 9140:Statistical Structure of Quantum Theory 9090: 9071: 9058: 8411: 3752:An example of pure and mixed states is 3690:(4) and have pure state density matrix: 2242:{\displaystyle \operatorname {tr} _{2}} 12074: 10169: 9951: 9932:, World Scientific, pp. 175–179, 9625:Indiana University Mathematics Journal 9521: 9488: 9142:. Lecture Notes in Physics. Springer. 9134: 7686:the same as in the Schrödinger picture 6156:{\displaystyle A=\sum _{i}a_{i}P_{i},} 4816:Equivalent ensembles and purifications 4166:, but this is not correct: if we pass 4106:like half of the photons are in state 930:, density matrices can also represent 11309: 11283: 10326: 9660: 9317: 9276: 9052:Wigner quasi-probability distribution 8317:{\displaystyle \{\{\cdot ,\cdot \}\}} 7643:{\displaystyle A^{(\mathrm {H} )}(t)} 6653:{\displaystyle |\varphi _{i}\rangle } 4808:. The joint state of the two photons 4481:{\displaystyle |\mathrm {H} \rangle } 4451:{\displaystyle |\mathrm {V} \rangle } 4421:{\displaystyle |\mathrm {L} \rangle } 4391:{\displaystyle |\mathrm {R} \rangle } 4287:{\displaystyle |\mathrm {L} \rangle } 4257:{\displaystyle |\mathrm {R} \rangle } 4159:{\displaystyle |\mathrm {L} \rangle } 4129:{\displaystyle |\mathrm {R} \rangle } 4095:{\displaystyle |\mathrm {L} \rangle } 4065:{\displaystyle |\mathrm {R} \rangle } 3817:{\displaystyle |\mathrm {L} \rangle } 3787:{\displaystyle |\mathrm {R} \rangle } 10290: 10200: 9928:Müller-Kirsten, Harald J.W. (2008), 9439: 9313: 9311: 9283:Quantum Theory: Concepts and Methods 9272: 9270: 9268: 9175: 9099: 3623:(2) with mixed state density matrix: 10284: 9849:; Polak, Wolfgang H. (2011-03-04). 9520:Translated by K. A. Kirkpatrick as 9042:Green's function (many-body theory) 8550:{\displaystyle (k_{\rm {B}}T)^{-1}} 7795:For a more general Hamiltonian, if 5963:{\displaystyle \operatorname {tr} } 3828:of the two: it can be in any state 3327:{\displaystyle (r_{x},r_{y},r_{z})} 13: 10352: 10268:10.1016/B978-0-08-010586-4.50007-9 9945: 9930:Classical Mechanics and Relativity 9879:The theory of open quantum systems 9764:10.1023/B:FOOP.0000019581.00318.a5 8905:C*-algebraic formulation of states 8799:{\displaystyle |\psi _{i}\rangle } 8627: 8624: 8525: 8163: 8134: 8019: 8014: 7979: 7976: 7973: 7622: 7573: 7535: 7524: 7509: 7490:, with a crucial sign difference: 7426: 7415: 7196:defined by the convex combination 6686:{\displaystyle \lambda _{i}\geq 0} 5324: 5282:{\displaystyle |\psi _{j}\rangle } 4776: 4768: 4752: 4744: 4649: 4638: 4610: 4599: 4571: 4560: 4532: 4521: 4471: 4441: 4411: 4381: 4343: 4324: 4294:half of the photons are absorbed. 4277: 4247: 4198: 4182: 4149: 4119: 4085: 4055: 4006: 3990: 3971: 3863: 3844: 3807: 3777: 2876:{\displaystyle |\psi _{2}\rangle } 2841:{\displaystyle |\psi _{1}\rangle } 2728:{\displaystyle |\psi _{2}\rangle } 2693:{\displaystyle |\psi _{1}\rangle } 2441: 2413: 2402: 2358: 2325: 2314: 2277:{\displaystyle {\mathcal {H}}_{2}} 2263: 2192: 2181: 2150: 2128: 2104: 2091: 2058:{\displaystyle {\mathcal {H}}_{1}} 2044: 2015: 1966: 1949: 1923: 1586: 1544: 1464: 1391:{\displaystyle |\psi _{j}\rangle } 1300:). The off-diagonal elements are 406:Sum-over-histories (path integral) 92: 66: 22:Part of a series of articles about 14: 12108: 9308: 9265: 9178:Quantum Theory for Mathematicians 8089: 8000: 7774: 7738: 7677:{\displaystyle \langle A\rangle } 7503: 7409: 7317:. It is however possible for the 926:: while those can only represent 43: 12056: 12055: 11251: 9958:Statistical Physics of Particles 8959:The states of the C*-algebra of 6972:of the probability distribution 5974:. Thus, the familiar expression 2600:{\displaystyle \rho =\rho ^{2}.} 1240:where the diagonal elements are 1000:are often used interchangeably. 11119:Used in science and engineering 10260:Collected Papers of L.D. Landau 10222: 10194: 10162: 10101: 9921: 9895: 9869: 9778: 9720: 9654: 9608: 9573: 9482: 9433: 9074:Principles of quantum mechanics 8328:, the transform of the quantum 6028:for pure states is replaced by 4930:{\displaystyle U^{\dagger }U=I} 3456: 3400: 2887:of these two states with equal 12005:Relativistic quantum mechanics 10362:Explicitly constrained entries 10140:10.1103/PhysRevLett.121.260401 9817:10.1103/PhysRevLett.100.160401 9380:Foundations of Physics Letters 9370: 9128: 9065: 8937:as a subalgebra of operators. 8886: 8855: 8779: 8771:single-particle wavefunctions 8649: 8637: 8617: 8611: 8535: 8516: 8476: 8470: 8459: 8447: 8391: 8373: 8273: 8261: 8226: 8214: 8205: 8187: 8158: 8140: 8064: 8052: 8046: 8034: 7956: 7944: 7883: 7876: 7870: 7864: 7858: 7852: 7843: 7837: 7811: 7805: 7752: 7746: 7710: 7704: 7637: 7631: 7626: 7618: 7577: 7569: 7528: 7520: 7453: 7441: 7394:Liouville–von Neumann equation 7082: 7069: 7040: 7027: 7018: 7012: 6833: 6818: 6633: 6610: 6579: 6065: 6056: 6008: 6000: 5931: 5922: 5901: 5870: 5823: 5792: 5740: 5732: 5648: 5617: 5525: 5487: 5457:{\displaystyle |a_{j}\rangle } 5437: 5379: 5358: 5320: 5262: 5224: 5183: 5152: 4965: 4851: 4783: 4763: 4739: 4735: 4654: 4633: 4615: 4594: 4576: 4555: 4537: 4516: 4466: 4436: 4406: 4376: 4338: 4319: 4272: 4242: 4205: 4193: 4177: 4173: 4144: 4114: 4080: 4050: 4013: 4001: 3985: 3981: 3966: 3920: 3911: 3897: 3888: 3858: 3839: 3802: 3772: 3603:picture of qubit state space. 3321: 3282: 3106:, and the pure states are the 3010: 2993: 2954: 2937: 2916: 2912: 2899: 2856: 2821: 2708: 2673: 2639: 2626: 2537: 2520: 2499:{\displaystyle |\psi \rangle } 2486: 2367:{\displaystyle |\Psi \rangle } 2354: 2081: 2075: 1932:{\displaystyle |\Psi \rangle } 1919: 1499: 1493: 1371: 1327: 1311: 1280: 1252: 1086: 1070: 1039: 1011: 934:(sometimes ambiguously called 902:that describes an ensemble of 556:Relativistic quantum mechanics 88: 81: 62: 1: 11983:Quantum statistical mechanics 11760:Quantum differential calculus 11682:Delayed-choice quantum eraser 11465:Symmetry in quantum mechanics 11136:Fundamental (computer vision) 10079:10.1088/1367-2630/18/3/033024 10026:10.1016/j.physrep.2019.10.001 9698:10.1103/PhysRevLett.91.120403 9593:10.1007/978-3-540-70626-7_110 9585:Compendium of Quantum Physics 9253:Davidson, Ernest Roy (1976). 4364:. However, unpolarized light 1398:is prepared with probability 959:quantum statistical mechanics 596:Quantum statistical mechanics 9440:Ochs, Wilhelm (1981-11-01). 9186:10.1007/978-1-4614-7116-5_19 7475:where the brackets denote a 7310:{\displaystyle \rho =\rho '} 6201:corresponding to eigenvalue 4136:and the other half in state 1333:{\displaystyle (\rho _{ij})} 7: 12087:Quantum information science 11785:Quantum stochastic calculus 11775:Quantum measurement problem 11697:Mach–Zehnder interferometer 10902:Duplication and elimination 10701:eigenvalues or eigenvectors 9072:Shankar, Ramamurti (2014). 9019: 8950:irreducible representations 8509:is the inverse temperature 8428:gives a result of the form 4458:or horizontal polarization 4300:(such as the light from an 3615:The incandescent light bulb 3607:Example: light polarization 2284:. This makes the operator 566:Quantum information science 10: 12113: 10835:With specific applications 10464:Discrete Fourier Transform 9963:Cambridge University Press 9320:Quantum Information Theory 9230:Cambridge University Press 9027:Atomic electron transition 8985: 8690:quantum information theory 8597:be equal to 1 defines the 7912: 7377: 6444: 4819: 4038:. If we pass it through a 2891:results in the pure state 2007:when measuring projectors 1293:{\displaystyle |1\rangle } 1265:{\displaystyle |0\rangle } 1052:{\displaystyle |1\rangle } 1024:{\displaystyle |0\rangle } 12051: 12013: 11965: 11845:Quantum complexity theory 11823:Quantum cellular automata 11798: 11730: 11664: 11577: 11541: 11528:Path integral formulation 11495: 11360: 11317: 11245: 11194: 11126:Cabibbo–Kobayashi–Maskawa 11118: 11064: 11000: 10834: 10753:Satisfying conditions on 10752: 10698: 10637: 10361: 9639:10.1512/iumj.1957.6.56050 9411:10.1007/s10702-006-1852-1 9338:10.1017/9781316809976.001 9102:Reviews of Modern Physics 9032:Density functional theory 8806:, then the collection of 8702:amplitude damping channel 7151:Given a density operator 7121:{\displaystyle \rho _{i}} 6961:{\displaystyle \rho _{i}} 6872:{\displaystyle \rho _{i}} 6660:are orthonormal vectors, 4304:) cannot be described as 4072:polarized light, or only 3141:{\displaystyle 2\times 2} 1003:Pick a basis with states 973:Definition and motivation 11912:Quantum machine learning 11892:Quantum key distribution 11882:Quantum image processing 11872:Quantum error correction 11722:Wheeler's delayed choice 10201:Emch, Gerard G. (1972), 9908:, Springer, p. 16, 9516:10.1002/andp.19504430510 9122:10.1103/RevModPhys.29.74 8929:. However, by using the 8664:grand canonical ensemble 8397:{\displaystyle W(x,p,t)} 8286:is the Hamiltonian, and 6500:of the density operator 6104:has spectral resolution 5553:occurs with probability 4042:that allows either only 2474:it can be written as an 2027:{\displaystyle \Pi _{m}} 1476:{\displaystyle \Pi _{m}} 601:Quantum machine learning 354:Wheeler's delayed-choice 11828:Quantum finite automata 10484:Generalized permutation 10262:. 1965. pp. 8–18. 10171:Mackey, George Whitelaw 10110:Physical Review Letters 9902:Schwabl, Franz (2002), 9787:Physical Review Letters 9667:Physical Review Letters 9318:Wilde, Mark M. (2017). 7915:Phase-space formulation 4822:Schrödinger–HJW theorem 4302:incandescent light bulb 3956:elliptical polarization 3275:where the real numbers 2700:and the other half in 2376:Schrödinger–HJW theorem 2253:over the Hilbert space 1906:Schrödinger–HJW theorem 914:of the outcomes of any 311:Leggett–Garg inequality 11932:Quantum neural network 11258:Mathematics portal 10049:New Journal of Physics 9733:Foundations of Physics 9559:10.1002/andp.200610207 8894: 8853: 8820: 8800: 8765: 8751:electrons filling the 8745: 8656: 8591: 8571: 8551: 8503: 8502:{\displaystyle \beta } 8483: 8398: 8357: 8356:{\displaystyle \hbar } 8318: 8280: 8279:{\displaystyle H(x,p)} 8242: 8108: 7899: 7818: 7786: 7678: 7644: 7597: 7466: 7364: 7336: 7335:{\displaystyle \rho '} 7311: 7280: 7257: 7190: 7189:{\displaystyle \rho '} 7165: 7142: 7122: 7092: 6993: 6962: 6932: 6873: 6843: 6745: 6725: 6687: 6654: 6619: 6542:spectral decomposition 6534: 6514: 6486: 6466: 6423: 6393: 6318: 6222: 6187: 6157: 6098: 6072: 6022: 5964: 5941: 5659: 5574: 5547: 5506: 5478: 5458: 5423: 5400: 5303: 5283: 5248: 5191: 5099: 4989: 4931: 4895: 4875: 4802: 4714: 4482: 4452: 4422: 4392: 4354: 4288: 4258: 4224: 4160: 4130: 4096: 4066: 4032: 3940: 3874: 3818: 3788: 3749: 3739: 3672: 3593: 3516: 3328: 3266: 3142: 3099: 3070: 2976: 2889:probability amplitudes 2877: 2842: 2804: 2729: 2694: 2652: 2601: 2548: 2506:with itself, that is, 2500: 2452: 2424: 2368: 2344:reduced density matrix 2336: 2278: 2243: 2216: 2059: 2028: 2001: 1981: 1933: 1898: 1871: 1836: 1759: 1673: 1477: 1447: 1431:projective measurement 1419: 1392: 1349:positive semi-definite 1342:positive semi-definite 1334: 1294: 1266: 1232: 1053: 1025: 102: 12092:Statistical mechanics 11957:Quantum teleportation 11485:Wave–particle duality 10238:Göttinger Nachrichten 9905:Statistical mechanics 9011:statistical mechanics 8998:and later in 1946 by 8895: 8833: 8821: 8801: 8766: 8746: 8731:method. If there are 8657: 8592: 8590:{\displaystyle \rho } 8572: 8552: 8504: 8484: 8422:Statistical mechanics 8399: 8358: 8319: 8281: 8243: 8109: 7900: 7819: 7787: 7679: 7645: 7598: 7467: 7365: 7363:{\displaystyle \rho } 7337: 7312: 7281: 7279:{\displaystyle \rho } 7258: 7191: 7166: 7164:{\displaystyle \rho } 7143: 7141:{\displaystyle \rho } 7123: 7093: 6994: 6992:{\displaystyle p_{i}} 6963: 6933: 6874: 6844: 6746: 6744:{\displaystyle \rho } 6726: 6688: 6655: 6620: 6535: 6533:{\displaystyle \rho } 6515: 6513:{\displaystyle \rho } 6487: 6485:{\displaystyle \rho } 6467: 6424: 6422:{\displaystyle P_{i}} 6394: 6319: 6223: 6221:{\displaystyle a_{i}} 6188: 6186:{\displaystyle P_{i}} 6158: 6099: 6073: 6023: 5965: 5942: 5660: 5575: 5573:{\displaystyle p_{j}} 5548: 5507: 5479: 5477:{\displaystyle \rho } 5459: 5424: 5422:{\displaystyle \rho } 5409:is a purification of 5401: 5304: 5284: 5249: 5192: 5100: 4990: 4932: 4896: 4876: 4803: 4715: 4483: 4453: 4423: 4393: 4355: 4289: 4259: 4225: 4161: 4131: 4097: 4067: 4033: 3941: 3875: 3819: 3789: 3762:circular polarization 3740: 3673: 3614: 3594: 3517: 3329: 3267: 3149:self-adjoint matrices 3143: 3089: 3071: 2982:with density matrix 2977: 2885:quantum superposition 2878: 2843: 2805: 2730: 2695: 2653: 2602: 2549: 2501: 2462:Pure and mixed states 2453: 2425: 2369: 2337: 2279: 2244: 2217: 2060: 2034:on the Hilbert space 2029: 2002: 1982: 1934: 1899: 1897:{\displaystyle p_{j}} 1872: 1837: 1760: 1674: 1478: 1448: 1420: 1418:{\displaystyle p_{j}} 1393: 1335: 1295: 1267: 1233: 1059:in a two-dimensional 1054: 1026: 296:Elitzur–Vaidman 286:Davisson–Germer 103: 11988:Quantum field theory 11917:Quantum metamaterial 11862:Quantum cryptography 11592:Consistent histories 9136:Holevo, Alexander S. 9059:Notes and references 9037:Green–Kubo relations 8830: 8810: 8775: 8755: 8735: 8698:depolarizing channel 8694:open quantum systems 8605: 8581: 8561: 8513: 8493: 8432: 8412:Example applications 8367: 8347: 8290: 8255: 8128: 7938: 7831: 7817:{\displaystyle G(t)} 7799: 7698: 7662: 7610: 7497: 7403: 7390:von Neumann equation 7386:Schrödinger equation 7354: 7321: 7290: 7270: 7203: 7175: 7155: 7132: 7105: 7006: 6976: 6945: 6886: 6856: 6758: 6735: 6697: 6664: 6629: 6548: 6524: 6504: 6476: 6456: 6406: 6338: 6235: 6205: 6170: 6111: 6088: 6035: 5978: 5954: 5683: 5587: 5557: 5520: 5496: 5468: 5433: 5413: 5316: 5293: 5258: 5204: 5122: 5002: 4945: 4905: 4885: 4831: 4732: 4725:birefringent crystal 4496: 4462: 4432: 4402: 4372: 4312: 4268: 4238: 4170: 4140: 4110: 4076: 4046: 3962: 3946:), corresponding to 3884: 3832: 3798: 3768: 3696: 3629: 3529: 3345: 3279: 3158: 3126: 3094:representation of a 3081:quantum interference 2989: 2895: 2852: 2817: 2742: 2704: 2669: 2617: 2575: 2510: 2482: 2434: 2382: 2350: 2288: 2257: 2226: 2069: 2038: 2011: 1991: 1943: 1915: 1881: 1846: 1773: 1687: 1487: 1460: 1437: 1402: 1367: 1308: 1276: 1248: 1067: 1035: 1007: 963:open quantum systems 561:Quantum field theory 473:Consistent histories 110:Schrödinger equation 37: 12082:Functional analysis 11973:Quantum fluctuation 11942:Quantum programming 11902:Quantum logic gates 11887:Quantum information 11867:Quantum electronics 11342:Classical mechanics 11207:Linear independence 10454:Diagonally dominant 10132:2018PhRvL.121z0401P 10071:2016NJPh...18c3024G 10018:2019PhR...831....1S 9847:Rieffel, Eleanor G. 9809:2008PhRvL.100p0401G 9756:2004FoPh...34..193C 9690:2003PhRvL..91l0403B 9551:2006AnP...518..663L 9508:1950AnP...443..322L 9403:2006FoPhL..19...95K 9114:1957RvMP...29...74F 9007:probability measure 8686:quantum computation 8674:Quantum decoherence 8023: 7484:Schrödinger picture 7392:(also known as the 6492:or in terms of the 6451:von Neumann entropy 6250: 6195:projection operator 3582: 3564: 3546: 2560:, in particular of 1207: 967:quantum information 349:Stern–Gerlach 146:Classical mechanics 12026:in popular culture 11808:Quantum algorithms 11656:Von Neumann–Wigner 11636:Objective collapse 11347:Old quantum theory 11212:Matrix exponential 11202:Jordan normal form 11036:Fisher information 10907:Euclidean distance 10821:Totally unimodular 10305:10.1007/BF03001661 10207:Wiley-Interscience 10179:Dover Publications 9616:Gleason, Andrew M. 9528:Annalen der Physik 9495:Annalen der Physik 9460:10.1007/BF00211375 8923:linear functionals 8890: 8816: 8796: 8761: 8741: 8725:Slater determinant 8706:Quantum tomography 8652: 8599:partition function 8587: 8567: 8547: 8499: 8479: 8426:canonical ensemble 8394: 8353: 8337:Liouville equation 8314: 8276: 8238: 8104: 8006: 7895: 7814: 7782: 7674: 7656:not time-dependent 7652:Heisenberg picture 7640: 7593: 7488:Heisenberg picture 7462: 7360: 7332: 7307: 7276: 7253: 7226: 7186: 7161: 7138: 7118: 7088: 7055: 6989: 6958: 6928: 6904: 6869: 6839: 6779: 6741: 6721: 6720: 6683: 6650: 6615: 6614: 6567: 6530: 6510: 6482: 6462: 6419: 6389: 6362: 6314: 6238: 6218: 6183: 6153: 6129: 6094: 6081:for mixed states. 6068: 6018: 5960: 5937: 5858: 5769: 5707: 5655: 5605: 5570: 5543: 5542: 5502: 5484:are of this form. 5474: 5454: 5419: 5396: 5342: 5299: 5279: 5244: 5187: 5140: 5095: 5049: 4985: 4927: 4891: 4871: 4798: 4710: 4701: 4478: 4448: 4418: 4388: 4350: 4308:state of the form 4284: 4254: 4220: 4156: 4126: 4092: 4062: 4040:circular polarizer 4028: 3936: 3870: 3814: 3784: 3754:light polarization 3750: 3735: 3729: 3668: 3662: 3589: 3568: 3550: 3532: 3512: 3503: 3447: 3391: 3324: 3262: 3138: 3116:linear combination 3100: 3066: 3057: 2972: 2873: 2838: 2800: 2791: 2725: 2690: 2648: 2597: 2544: 2496: 2478:of a state vector 2468:convex combination 2448: 2420: 2364: 2332: 2274: 2239: 2212: 2065:alone is given by 2055: 2024: 1997: 1977: 1929: 1894: 1867: 1832: 1785: 1755: 1705: 1669: 1609: 1514: 1473: 1443: 1415: 1388: 1359:one acting on the 1330: 1302:complex conjugates 1290: 1262: 1228: 1222: 1193: 1150: 1049: 1021: 537:Von Neumann–Wigner 517:Objective-collapse 316:Mach–Zehnder 306:Leggett inequality 301:Franck–Hertz 151:Old quantum theory 98: 12069: 12068: 12043:Quantum mysticism 12021:Schrödinger's cat 11952:Quantum simulator 11922:Quantum metrology 11850:Quantum computing 11813:Quantum amplifier 11790:Quantum spacetime 11755:Quantum cosmology 11745:Quantum chemistry 11460:Scattering theory 11408:Zero-point energy 11403:Degenerate levels 11311:Quantum mechanics 11277: 11276: 11269:Category:Matrices 11141:Fuzzy associative 11031:Doubly stochastic 10739:Positive-definite 10419:Block tridiagonal 10293:Rendiconti Lincei 10277:978-0-08-010586-4 10230:von Neumann, John 10216:978-0-471-23900-0 10188:978-0-486-43517-6 9972:978-0-521-87342-0 9939:978-981-283-251-1 9915:978-3-540-43163-3 9889:978-0-19-852063-4 9862:978-0-262-01506-6 9728:Caves, Carlton M. 9602:978-3-540-70622-9 9347:978-1-107-17616-4 9293:978-0-7923-3632-7 9239:978-0-521-63503-5 9195:978-1-4614-7115-8 9083:978-0-306-44790-7 9047:Lindblad equation 8961:compact operators 8819:{\displaystyle N} 8764:{\displaystyle N} 8744:{\displaystyle N} 8570:{\displaystyle H} 8341:classical physics 8170: 8004: 7989: 7984: 7962: 7589: 7545: 7458: 7436: 7217: 7046: 6895: 6770: 6558: 6465:{\displaystyle S} 6435:non-contextuality 6431:Gleason's theorem 6353: 6312: 6120: 6097:{\displaystyle A} 5849: 5760: 5698: 5670:expectation value 5596: 5505:{\displaystyle A} 5355: 5333: 5302:{\displaystyle U} 5131: 5075: 5040: 5017: 4894:{\displaystyle U} 4796: 4669: 4630: 4591: 4552: 4513: 4298:Unpolarized light 4218: 4026: 3175: 3025: 2967: 2759: 2000:{\displaystyle m} 1877:and coefficients 1776: 1696: 1600: 1505: 1446:{\displaystyle m} 888:quantum mechanics 884: 883: 591:Scattering theory 571:Quantum computing 344:Schrödinger's cat 276:Bell's inequality 84: 59: 28:Quantum mechanics 12104: 12059: 12058: 11770:Quantum geometry 11765:Quantum dynamics 11622:Superdeterminism 11518:Matrix mechanics 11373:Bra–ket notation 11304: 11297: 11290: 11281: 11280: 11264:List of matrices 11256: 11255: 11232:Row echelon form 11176:State transition 11105:Seidel adjacency 10987:Totally positive 10847:Alternating sign 10444:Complex Hadamard 10347: 10340: 10333: 10324: 10323: 10317: 10316: 10288: 10282: 10281: 10255: 10246: 10245: 10226: 10220: 10219: 10198: 10192: 10191: 10166: 10160: 10159: 10125: 10105: 10099: 10098: 10064: 10044: 10038: 10037: 10011: 9991: 9985: 9984: 9949: 9943: 9942: 9925: 9919: 9918: 9899: 9893: 9892: 9873: 9867: 9866: 9843: 9837: 9836: 9802: 9782: 9776: 9775: 9749: 9747:quant-ph/0306179 9724: 9718: 9717: 9683: 9681:quant-ph/9909073 9658: 9652: 9651: 9641: 9612: 9606: 9605: 9577: 9571: 9570: 9544: 9542:quant-ph/0403007 9519: 9486: 9480: 9479: 9437: 9431: 9430: 9396: 9394:quant-ph/0305068 9374: 9368: 9367: 9331: 9315: 9306: 9305: 9274: 9263: 9262: 9250: 9244: 9242: 9219: 9200: 9199: 9173: 9162: 9161: 9132: 9126: 9125: 9097: 9088: 9087: 9069: 8992:John von Neumann 8931:GNS construction 8899: 8897: 8896: 8891: 8889: 8884: 8883: 8868: 8867: 8858: 8852: 8847: 8825: 8823: 8822: 8817: 8805: 8803: 8802: 8797: 8792: 8791: 8782: 8770: 8768: 8767: 8762: 8750: 8748: 8747: 8742: 8661: 8659: 8658: 8653: 8630: 8596: 8594: 8593: 8588: 8576: 8574: 8573: 8568: 8556: 8554: 8553: 8548: 8546: 8545: 8530: 8529: 8528: 8508: 8506: 8505: 8500: 8488: 8486: 8485: 8480: 8466: 8403: 8401: 8400: 8395: 8362: 8360: 8359: 8354: 8323: 8321: 8320: 8315: 8285: 8283: 8282: 8277: 8247: 8245: 8244: 8239: 8171: 8169: 8161: 8132: 8113: 8111: 8110: 8105: 8093: 8092: 8088: 8033: 8032: 8022: 8017: 8005: 8003: 7992: 7987: 7986: 7985: 7983: 7982: 7970: 7965: 7960: 7904: 7902: 7901: 7896: 7891: 7890: 7823: 7821: 7820: 7815: 7791: 7789: 7788: 7783: 7778: 7777: 7773: 7742: 7741: 7737: 7683: 7681: 7680: 7675: 7649: 7647: 7646: 7641: 7630: 7629: 7625: 7602: 7600: 7599: 7594: 7587: 7586: 7582: 7581: 7580: 7576: 7546: 7544: 7533: 7532: 7531: 7527: 7507: 7471: 7469: 7468: 7463: 7456: 7437: 7435: 7424: 7413: 7369: 7367: 7366: 7361: 7346:measurement, or 7341: 7339: 7338: 7333: 7331: 7316: 7314: 7313: 7308: 7306: 7285: 7283: 7282: 7277: 7262: 7260: 7259: 7254: 7249: 7248: 7236: 7235: 7225: 7213: 7195: 7193: 7192: 7187: 7185: 7170: 7168: 7167: 7162: 7147: 7145: 7144: 7139: 7127: 7125: 7124: 7119: 7117: 7116: 7101:When the states 7097: 7095: 7094: 7089: 7081: 7080: 7065: 7064: 7054: 7039: 7038: 6998: 6996: 6995: 6990: 6988: 6987: 6967: 6965: 6964: 6959: 6957: 6956: 6937: 6935: 6934: 6929: 6924: 6923: 6914: 6913: 6903: 6878: 6876: 6875: 6870: 6868: 6867: 6848: 6846: 6845: 6840: 6805: 6804: 6789: 6788: 6778: 6750: 6748: 6747: 6742: 6730: 6728: 6727: 6722: 6713: 6712: 6692: 6690: 6689: 6684: 6676: 6675: 6659: 6657: 6656: 6651: 6646: 6645: 6636: 6624: 6622: 6621: 6616: 6613: 6608: 6607: 6592: 6591: 6582: 6577: 6576: 6566: 6539: 6537: 6536: 6531: 6519: 6517: 6516: 6511: 6491: 6489: 6488: 6483: 6471: 6469: 6468: 6463: 6428: 6426: 6425: 6420: 6418: 6417: 6398: 6396: 6395: 6390: 6385: 6384: 6372: 6371: 6361: 6349: 6323: 6321: 6320: 6315: 6313: 6311: 6310: 6306: 6305: 6304: 6280: 6279: 6278: 6266: 6265: 6255: 6246: 6227: 6225: 6224: 6219: 6217: 6216: 6192: 6190: 6189: 6184: 6182: 6181: 6162: 6160: 6159: 6154: 6149: 6148: 6139: 6138: 6128: 6103: 6101: 6100: 6095: 6077: 6075: 6074: 6069: 6027: 6025: 6024: 6019: 6011: 6003: 5969: 5967: 5966: 5961: 5946: 5944: 5943: 5938: 5912: 5908: 5904: 5899: 5898: 5883: 5882: 5873: 5868: 5867: 5857: 5834: 5830: 5826: 5821: 5820: 5805: 5804: 5795: 5779: 5778: 5768: 5753: 5752: 5743: 5735: 5730: 5729: 5717: 5716: 5706: 5664: 5662: 5661: 5656: 5651: 5646: 5645: 5630: 5629: 5620: 5615: 5614: 5604: 5579: 5577: 5576: 5571: 5569: 5568: 5552: 5550: 5549: 5544: 5538: 5537: 5528: 5511: 5509: 5508: 5503: 5483: 5481: 5480: 5475: 5463: 5461: 5460: 5455: 5450: 5449: 5440: 5428: 5426: 5425: 5420: 5405: 5403: 5402: 5397: 5392: 5391: 5382: 5371: 5370: 5361: 5356: 5354: 5353: 5344: 5341: 5323: 5308: 5306: 5305: 5300: 5288: 5286: 5285: 5280: 5275: 5274: 5265: 5253: 5251: 5250: 5245: 5237: 5236: 5227: 5219: 5218: 5196: 5194: 5193: 5188: 5186: 5181: 5180: 5165: 5164: 5155: 5150: 5149: 5139: 5104: 5102: 5101: 5096: 5094: 5090: 5089: 5076: 5074: 5073: 5064: 5062: 5061: 5048: 5036: 5032: 5031: 5018: 5016: 5015: 5006: 4994: 4992: 4991: 4986: 4978: 4977: 4968: 4960: 4959: 4941:), the ensemble 4939:partial isometry 4936: 4934: 4933: 4928: 4917: 4916: 4900: 4898: 4897: 4892: 4880: 4878: 4877: 4872: 4864: 4863: 4854: 4846: 4845: 4807: 4805: 4804: 4799: 4797: 4792: 4790: 4779: 4771: 4766: 4755: 4747: 4742: 4719: 4717: 4716: 4711: 4706: 4705: 4670: 4662: 4657: 4652: 4641: 4636: 4631: 4623: 4618: 4613: 4602: 4597: 4592: 4584: 4579: 4574: 4563: 4558: 4553: 4545: 4540: 4535: 4524: 4519: 4514: 4506: 4487: 4485: 4484: 4479: 4474: 4469: 4457: 4455: 4454: 4449: 4444: 4439: 4427: 4425: 4424: 4419: 4414: 4409: 4398:polarization or 4397: 4395: 4394: 4389: 4384: 4379: 4359: 4357: 4356: 4351: 4346: 4341: 4327: 4322: 4293: 4291: 4290: 4285: 4280: 4275: 4263: 4261: 4260: 4255: 4250: 4245: 4232:linear polarizer 4229: 4227: 4226: 4221: 4219: 4214: 4212: 4201: 4196: 4185: 4180: 4165: 4163: 4162: 4157: 4152: 4147: 4135: 4133: 4132: 4127: 4122: 4117: 4101: 4099: 4098: 4093: 4088: 4083: 4071: 4069: 4068: 4063: 4058: 4053: 4037: 4035: 4034: 4029: 4027: 4022: 4020: 4009: 4004: 3993: 3988: 3974: 3969: 3945: 3943: 3942: 3937: 3929: 3928: 3923: 3914: 3906: 3905: 3900: 3891: 3879: 3877: 3876: 3871: 3866: 3861: 3847: 3842: 3823: 3821: 3820: 3815: 3810: 3805: 3793: 3791: 3790: 3785: 3780: 3775: 3756:. An individual 3747: 3744: 3742: 3741: 3736: 3734: 3733: 3689: 3685: 3680: 3677: 3675: 3674: 3669: 3667: 3666: 3622: 3618: 3598: 3596: 3595: 3590: 3581: 3576: 3563: 3558: 3545: 3540: 3521: 3519: 3518: 3513: 3508: 3507: 3466: 3465: 3452: 3451: 3410: 3409: 3396: 3395: 3357: 3356: 3333: 3331: 3330: 3325: 3320: 3319: 3307: 3306: 3294: 3293: 3271: 3269: 3268: 3263: 3258: 3254: 3253: 3252: 3243: 3242: 3230: 3229: 3220: 3219: 3207: 3206: 3197: 3196: 3176: 3168: 3147: 3145: 3144: 3139: 3075: 3073: 3072: 3067: 3062: 3061: 3026: 3018: 3013: 2996: 2981: 2979: 2978: 2973: 2968: 2963: 2961: 2950: 2949: 2940: 2929: 2928: 2919: 2902: 2882: 2880: 2879: 2874: 2869: 2868: 2859: 2847: 2845: 2844: 2839: 2834: 2833: 2824: 2809: 2807: 2806: 2801: 2796: 2795: 2760: 2752: 2734: 2732: 2731: 2726: 2721: 2720: 2711: 2699: 2697: 2696: 2691: 2686: 2685: 2676: 2657: 2655: 2654: 2649: 2638: 2637: 2606: 2604: 2603: 2598: 2593: 2592: 2553: 2551: 2550: 2545: 2540: 2523: 2505: 2503: 2502: 2497: 2489: 2457: 2455: 2454: 2449: 2447: 2429: 2427: 2426: 2421: 2419: 2408: 2394: 2393: 2373: 2371: 2370: 2365: 2357: 2341: 2339: 2338: 2333: 2331: 2320: 2306: 2305: 2283: 2281: 2280: 2275: 2273: 2272: 2267: 2266: 2248: 2246: 2245: 2240: 2238: 2237: 2221: 2219: 2218: 2213: 2208: 2204: 2203: 2199: 2198: 2187: 2173: 2172: 2158: 2157: 2134: 2123: 2119: 2112: 2111: 2097: 2064: 2062: 2061: 2056: 2054: 2053: 2048: 2047: 2033: 2031: 2030: 2025: 2023: 2022: 2006: 2004: 2003: 1998: 1986: 1984: 1983: 1978: 1976: 1975: 1970: 1969: 1959: 1958: 1953: 1952: 1938: 1936: 1935: 1930: 1922: 1903: 1901: 1900: 1895: 1893: 1892: 1876: 1874: 1873: 1868: 1866: 1862: 1861: 1842:for some states 1841: 1839: 1838: 1833: 1831: 1827: 1826: 1813: 1809: 1808: 1795: 1794: 1784: 1767:spectral theorem 1764: 1762: 1761: 1756: 1751: 1747: 1746: 1733: 1729: 1728: 1715: 1714: 1704: 1681:density operator 1679:which makes the 1678: 1676: 1675: 1670: 1665: 1661: 1660: 1656: 1655: 1651: 1650: 1637: 1633: 1632: 1619: 1618: 1608: 1594: 1593: 1570: 1566: 1565: 1552: 1551: 1542: 1538: 1537: 1524: 1523: 1513: 1482: 1480: 1479: 1474: 1472: 1471: 1452: 1450: 1449: 1444: 1425:, describing an 1424: 1422: 1421: 1416: 1414: 1413: 1397: 1395: 1394: 1389: 1384: 1383: 1374: 1339: 1337: 1336: 1331: 1326: 1325: 1299: 1297: 1296: 1291: 1283: 1271: 1269: 1268: 1263: 1255: 1237: 1235: 1234: 1229: 1227: 1223: 1219: 1218: 1206: 1201: 1188: 1187: 1176: 1175: 1155: 1151: 1147: 1146: 1135: 1134: 1121: 1120: 1109: 1108: 1085: 1084: 1058: 1056: 1055: 1050: 1042: 1030: 1028: 1027: 1022: 1014: 998:density operator 983:density operator 904:physical systems 896:density operator 876: 869: 862: 503:Superdeterminism 156:Bra–ket notation 107: 105: 104: 99: 91: 86: 85: 77: 65: 60: 58: 47: 19: 18: 12112: 12111: 12107: 12106: 12105: 12103: 12102: 12101: 12072: 12071: 12070: 12065: 12047: 12033:Wigner's friend 12009: 12000:Quantum gravity 11961: 11947:Quantum sensing 11927:Quantum network 11907:Quantum machine 11877:Quantum imaging 11840:Quantum circuit 11835:Quantum channel 11794: 11740:Quantum biology 11726: 11702:Elitzur–Vaidman 11677:Davisson–Germer 11660: 11612:Hidden-variable 11602:de Broglie–Bohm 11579:Interpretations 11573: 11537: 11491: 11378:Complementarity 11356: 11313: 11308: 11278: 11273: 11250: 11241: 11190: 11114: 11060: 10996: 10830: 10748: 10694: 10633: 10434:Centrosymmetric 10357: 10351: 10321: 10320: 10289: 10285: 10278: 10257: 10256: 10249: 10227: 10223: 10217: 10199: 10195: 10189: 10168:See appendix, 10167: 10163: 10106: 10102: 10045: 10041: 9996:Physics Reports 9992: 9988: 9973: 9950: 9946: 9940: 9926: 9922: 9916: 9900: 9896: 9890: 9874: 9870: 9863: 9844: 9840: 9783: 9779: 9725: 9721: 9659: 9655: 9613: 9609: 9603: 9578: 9574: 9523:Lüders, Gerhart 9490:Lüders, Gerhart 9487: 9483: 9438: 9434: 9375: 9371: 9348: 9316: 9309: 9294: 9275: 9266: 9251: 9247: 9240: 9220: 9203: 9196: 9174: 9165: 9150: 9133: 9129: 9098: 9091: 9084: 9070: 9066: 9061: 9056: 9022: 8988: 8907: 8885: 8879: 8875: 8863: 8859: 8854: 8848: 8837: 8831: 8828: 8827: 8811: 8808: 8807: 8787: 8783: 8778: 8776: 8773: 8772: 8756: 8753: 8752: 8736: 8733: 8732: 8679:classical limit 8623: 8606: 8603: 8602: 8582: 8579: 8578: 8562: 8559: 8558: 8538: 8534: 8524: 8523: 8519: 8514: 8511: 8510: 8494: 8491: 8490: 8462: 8433: 8430: 8429: 8414: 8368: 8365: 8364: 8348: 8345: 8344: 8291: 8288: 8287: 8256: 8253: 8252: 8162: 8133: 8131: 8129: 8126: 8125: 8084: 8071: 8067: 8028: 8024: 8018: 8010: 7996: 7991: 7972: 7971: 7966: 7964: 7963: 7939: 7936: 7935: 7929:Wigner function 7917: 7911: 7886: 7882: 7832: 7829: 7828: 7800: 7797: 7796: 7769: 7759: 7755: 7733: 7720: 7716: 7699: 7696: 7695: 7663: 7660: 7659: 7621: 7617: 7613: 7611: 7608: 7607: 7572: 7568: 7564: 7557: 7553: 7534: 7523: 7519: 7515: 7508: 7506: 7498: 7495: 7494: 7425: 7414: 7412: 7404: 7401: 7400: 7382: 7376: 7355: 7352: 7351: 7324: 7322: 7319: 7318: 7299: 7291: 7288: 7287: 7271: 7268: 7267: 7244: 7240: 7231: 7227: 7221: 7206: 7204: 7201: 7200: 7178: 7176: 7173: 7172: 7156: 7153: 7152: 7133: 7130: 7129: 7112: 7108: 7106: 7103: 7102: 7076: 7072: 7060: 7056: 7050: 7034: 7030: 7007: 7004: 7003: 6983: 6979: 6977: 6974: 6973: 6970:Shannon entropy 6952: 6948: 6946: 6943: 6942: 6919: 6915: 6909: 6905: 6899: 6887: 6884: 6883: 6863: 6859: 6857: 6854: 6853: 6800: 6796: 6784: 6780: 6774: 6759: 6756: 6755: 6736: 6733: 6732: 6708: 6704: 6698: 6695: 6694: 6671: 6667: 6665: 6662: 6661: 6641: 6637: 6632: 6630: 6627: 6626: 6609: 6603: 6599: 6587: 6583: 6578: 6572: 6568: 6562: 6549: 6546: 6545: 6525: 6522: 6521: 6505: 6502: 6501: 6477: 6474: 6473: 6457: 6454: 6453: 6447: 6413: 6409: 6407: 6404: 6403: 6380: 6376: 6367: 6363: 6357: 6342: 6339: 6336: 6335: 6300: 6296: 6292: 6288: 6281: 6274: 6270: 6261: 6257: 6256: 6254: 6242: 6236: 6233: 6232: 6212: 6208: 6206: 6203: 6202: 6177: 6173: 6171: 6168: 6167: 6144: 6140: 6134: 6130: 6124: 6112: 6109: 6108: 6089: 6086: 6085: 6036: 6033: 6032: 6007: 5999: 5979: 5976: 5975: 5955: 5952: 5951: 5900: 5894: 5890: 5878: 5874: 5869: 5863: 5859: 5853: 5848: 5844: 5822: 5816: 5812: 5800: 5796: 5791: 5790: 5786: 5774: 5770: 5764: 5748: 5744: 5739: 5731: 5725: 5721: 5712: 5708: 5702: 5684: 5681: 5680: 5647: 5641: 5637: 5625: 5621: 5616: 5610: 5606: 5600: 5588: 5585: 5584: 5564: 5560: 5558: 5555: 5554: 5533: 5529: 5524: 5521: 5518: 5517: 5497: 5494: 5493: 5490: 5469: 5466: 5465: 5445: 5441: 5436: 5434: 5431: 5430: 5414: 5411: 5410: 5387: 5383: 5378: 5366: 5362: 5357: 5349: 5345: 5343: 5337: 5319: 5317: 5314: 5313: 5294: 5291: 5290: 5270: 5266: 5261: 5259: 5256: 5255: 5232: 5228: 5223: 5214: 5210: 5205: 5202: 5201: 5182: 5176: 5172: 5160: 5156: 5151: 5145: 5141: 5135: 5123: 5120: 5119: 5085: 5081: 5077: 5069: 5065: 5063: 5054: 5050: 5044: 5027: 5023: 5019: 5011: 5007: 5005: 5003: 5000: 4999: 4973: 4969: 4964: 4955: 4951: 4946: 4943: 4942: 4912: 4908: 4906: 4903: 4902: 4886: 4883: 4882: 4859: 4855: 4850: 4841: 4837: 4832: 4829: 4828: 4824: 4818: 4791: 4786: 4775: 4767: 4762: 4751: 4743: 4738: 4733: 4730: 4729: 4700: 4699: 4694: 4688: 4687: 4682: 4672: 4671: 4661: 4653: 4648: 4637: 4632: 4622: 4614: 4609: 4598: 4593: 4583: 4575: 4570: 4559: 4554: 4544: 4536: 4531: 4520: 4515: 4505: 4497: 4494: 4493: 4470: 4465: 4463: 4460: 4459: 4440: 4435: 4433: 4430: 4429: 4410: 4405: 4403: 4400: 4399: 4380: 4375: 4373: 4370: 4369: 4342: 4337: 4323: 4318: 4313: 4310: 4309: 4276: 4271: 4269: 4266: 4265: 4246: 4241: 4239: 4236: 4235: 4213: 4208: 4197: 4192: 4181: 4176: 4171: 4168: 4167: 4148: 4143: 4141: 4138: 4137: 4118: 4113: 4111: 4108: 4107: 4084: 4079: 4077: 4074: 4073: 4054: 4049: 4047: 4044: 4043: 4021: 4016: 4005: 4000: 3989: 3984: 3970: 3965: 3963: 3960: 3959: 3924: 3919: 3918: 3910: 3901: 3896: 3895: 3887: 3885: 3882: 3881: 3862: 3857: 3843: 3838: 3833: 3830: 3829: 3806: 3801: 3799: 3796: 3795: 3776: 3771: 3769: 3766: 3765: 3748: 3745: 3728: 3727: 3722: 3716: 3715: 3710: 3700: 3699: 3697: 3694: 3693: 3691: 3687: 3683: 3681: 3678: 3661: 3660: 3655: 3649: 3648: 3643: 3633: 3632: 3630: 3627: 3626: 3624: 3620: 3616: 3609: 3577: 3572: 3559: 3554: 3541: 3536: 3530: 3527: 3526: 3502: 3501: 3493: 3487: 3486: 3481: 3471: 3470: 3461: 3457: 3446: 3445: 3440: 3434: 3433: 3425: 3415: 3414: 3405: 3401: 3390: 3389: 3384: 3378: 3377: 3372: 3362: 3361: 3352: 3348: 3346: 3343: 3342: 3315: 3311: 3302: 3298: 3289: 3285: 3280: 3277: 3276: 3248: 3244: 3238: 3234: 3225: 3221: 3215: 3211: 3202: 3198: 3192: 3188: 3181: 3177: 3167: 3159: 3156: 3155: 3127: 3124: 3123: 3108:extremal points 3056: 3055: 3050: 3044: 3043: 3038: 3028: 3027: 3017: 3009: 2992: 2990: 2987: 2986: 2962: 2957: 2945: 2941: 2936: 2924: 2920: 2915: 2898: 2896: 2893: 2892: 2864: 2860: 2855: 2853: 2850: 2849: 2829: 2825: 2820: 2818: 2815: 2814: 2790: 2789: 2784: 2778: 2777: 2772: 2762: 2761: 2751: 2743: 2740: 2739: 2716: 2712: 2707: 2705: 2702: 2701: 2681: 2677: 2672: 2670: 2667: 2666: 2633: 2629: 2618: 2615: 2614: 2588: 2584: 2576: 2573: 2572: 2536: 2519: 2511: 2508: 2507: 2485: 2483: 2480: 2479: 2464: 2437: 2435: 2432: 2431: 2430:for some state 2409: 2398: 2389: 2385: 2383: 2380: 2379: 2353: 2351: 2348: 2347: 2321: 2310: 2301: 2297: 2289: 2286: 2285: 2268: 2262: 2261: 2260: 2258: 2255: 2254: 2233: 2229: 2227: 2224: 2223: 2188: 2177: 2168: 2164: 2163: 2159: 2153: 2149: 2148: 2144: 2124: 2107: 2103: 2102: 2098: 2087: 2070: 2067: 2066: 2049: 2043: 2042: 2041: 2039: 2036: 2035: 2018: 2014: 2012: 2009: 2008: 1992: 1989: 1988: 1971: 1965: 1964: 1963: 1954: 1948: 1947: 1946: 1944: 1941: 1940: 1918: 1916: 1913: 1912: 1888: 1884: 1882: 1879: 1878: 1857: 1853: 1849: 1847: 1844: 1843: 1822: 1818: 1814: 1804: 1800: 1796: 1790: 1786: 1780: 1774: 1771: 1770: 1742: 1738: 1734: 1724: 1720: 1716: 1710: 1706: 1700: 1688: 1685: 1684: 1683:, defined as 1646: 1642: 1638: 1628: 1624: 1620: 1614: 1610: 1604: 1599: 1595: 1589: 1585: 1584: 1580: 1561: 1557: 1553: 1547: 1543: 1533: 1529: 1525: 1519: 1515: 1509: 1488: 1485: 1484: 1467: 1463: 1461: 1458: 1457: 1438: 1435: 1434: 1409: 1405: 1403: 1400: 1399: 1379: 1375: 1370: 1368: 1365: 1364: 1318: 1314: 1309: 1306: 1305: 1279: 1277: 1274: 1273: 1251: 1249: 1246: 1245: 1221: 1220: 1214: 1210: 1208: 1202: 1197: 1190: 1189: 1183: 1179: 1177: 1171: 1167: 1163: 1159: 1149: 1148: 1142: 1138: 1136: 1130: 1126: 1123: 1122: 1116: 1112: 1110: 1104: 1100: 1096: 1092: 1077: 1073: 1068: 1065: 1064: 1038: 1036: 1033: 1032: 1010: 1008: 1005: 1004: 979:linear operator 975: 932:mixed ensembles 880: 851: 850: 849: 614: 606: 605: 551: 550:Advanced topics 543: 542: 541: 493:Hidden-variable 483:de Broglie–Bohm 462: 460:Interpretations 452: 451: 450: 420: 412: 411: 410: 368: 360: 359: 358: 325: 281:CHSH inequality 270: 262: 261: 260: 189:Complementarity 183: 175: 174: 173: 141: 112: 87: 76: 75: 61: 51: 46: 38: 35: 34: 17: 12: 11: 5: 12110: 12100: 12099: 12094: 12089: 12084: 12067: 12066: 12064: 12063: 12052: 12049: 12048: 12046: 12045: 12040: 12035: 12030: 12029: 12028: 12017: 12015: 12011: 12010: 12008: 12007: 12002: 11997: 11996: 11995: 11985: 11980: 11978:Casimir effect 11975: 11969: 11967: 11963: 11962: 11960: 11959: 11954: 11949: 11944: 11939: 11937:Quantum optics 11934: 11929: 11924: 11919: 11914: 11909: 11904: 11899: 11894: 11889: 11884: 11879: 11874: 11869: 11864: 11859: 11858: 11857: 11847: 11842: 11837: 11832: 11831: 11830: 11820: 11815: 11810: 11804: 11802: 11796: 11795: 11793: 11792: 11787: 11782: 11777: 11772: 11767: 11762: 11757: 11752: 11747: 11742: 11736: 11734: 11728: 11727: 11725: 11724: 11719: 11714: 11712:Quantum eraser 11709: 11704: 11699: 11694: 11689: 11684: 11679: 11674: 11668: 11666: 11662: 11661: 11659: 11658: 11653: 11648: 11643: 11638: 11633: 11628: 11627: 11626: 11625: 11624: 11609: 11604: 11599: 11594: 11589: 11583: 11581: 11575: 11574: 11572: 11571: 11566: 11561: 11556: 11551: 11545: 11543: 11539: 11538: 11536: 11535: 11530: 11525: 11520: 11515: 11510: 11505: 11499: 11497: 11493: 11492: 11490: 11489: 11488: 11487: 11482: 11472: 11467: 11462: 11457: 11452: 11447: 11442: 11437: 11432: 11427: 11422: 11417: 11412: 11411: 11410: 11405: 11400: 11395: 11385: 11383:Density matrix 11380: 11375: 11370: 11364: 11362: 11358: 11357: 11355: 11354: 11349: 11344: 11339: 11338: 11337: 11327: 11321: 11319: 11315: 11314: 11307: 11306: 11299: 11292: 11284: 11275: 11274: 11272: 11271: 11266: 11261: 11246: 11243: 11242: 11240: 11239: 11234: 11229: 11224: 11222:Perfect matrix 11219: 11214: 11209: 11204: 11198: 11196: 11192: 11191: 11189: 11188: 11183: 11178: 11173: 11168: 11163: 11158: 11153: 11148: 11143: 11138: 11133: 11128: 11122: 11120: 11116: 11115: 11113: 11112: 11107: 11102: 11097: 11092: 11087: 11082: 11077: 11071: 11069: 11062: 11061: 11059: 11058: 11053: 11048: 11043: 11038: 11033: 11028: 11023: 11018: 11013: 11007: 11005: 10998: 10997: 10995: 10994: 10992:Transformation 10989: 10984: 10979: 10974: 10969: 10964: 10959: 10954: 10949: 10944: 10939: 10934: 10929: 10924: 10919: 10914: 10909: 10904: 10899: 10894: 10889: 10884: 10879: 10874: 10869: 10864: 10859: 10854: 10849: 10844: 10838: 10836: 10832: 10831: 10829: 10828: 10823: 10818: 10813: 10808: 10803: 10798: 10793: 10788: 10783: 10778: 10769: 10763: 10761: 10750: 10749: 10747: 10746: 10741: 10736: 10731: 10729:Diagonalizable 10726: 10721: 10716: 10711: 10705: 10703: 10699:Conditions on 10696: 10695: 10693: 10692: 10687: 10682: 10677: 10672: 10667: 10662: 10657: 10652: 10647: 10641: 10639: 10635: 10634: 10632: 10631: 10626: 10621: 10616: 10611: 10606: 10601: 10596: 10591: 10586: 10581: 10579:Skew-symmetric 10576: 10574:Skew-Hermitian 10571: 10566: 10561: 10556: 10551: 10546: 10541: 10536: 10531: 10526: 10521: 10516: 10511: 10506: 10501: 10496: 10491: 10486: 10481: 10476: 10471: 10466: 10461: 10456: 10451: 10446: 10441: 10436: 10431: 10426: 10421: 10416: 10411: 10409:Block-diagonal 10406: 10401: 10396: 10391: 10386: 10384:Anti-symmetric 10381: 10379:Anti-Hermitian 10376: 10371: 10365: 10363: 10359: 10358: 10350: 10349: 10342: 10335: 10327: 10319: 10318: 10299:(2): 123–130. 10283: 10276: 10247: 10221: 10215: 10193: 10187: 10161: 10100: 10039: 9986: 9971: 9953:Kardar, Mehran 9944: 9938: 9920: 9914: 9894: 9888: 9868: 9861: 9838: 9793:(16): 160401. 9777: 9740:(2): 193–209. 9719: 9674:(12): 120403. 9653: 9632:(4): 885–893. 9607: 9601: 9572: 9535:(9): 663–670. 9481: 9454:(3): 339–356. 9432: 9369: 9346: 9307: 9292: 9264: 9259:Academic Press 9245: 9238: 9201: 9194: 9163: 9148: 9127: 9089: 9082: 9063: 9062: 9060: 9057: 9055: 9054: 9049: 9044: 9039: 9034: 9029: 9023: 9021: 9018: 8987: 8984: 8906: 8903: 8902: 8901: 8888: 8882: 8878: 8874: 8871: 8866: 8862: 8857: 8851: 8846: 8843: 8840: 8836: 8815: 8795: 8790: 8786: 8781: 8760: 8740: 8709: 8684:Similarly, in 8682: 8671: 8651: 8648: 8645: 8642: 8639: 8636: 8633: 8629: 8626: 8622: 8619: 8616: 8613: 8610: 8586: 8566: 8544: 8541: 8537: 8533: 8527: 8522: 8518: 8498: 8478: 8475: 8472: 8469: 8465: 8461: 8458: 8455: 8452: 8449: 8446: 8443: 8440: 8437: 8413: 8410: 8393: 8390: 8387: 8384: 8381: 8378: 8375: 8372: 8352: 8313: 8310: 8307: 8304: 8301: 8298: 8295: 8275: 8272: 8269: 8266: 8263: 8260: 8249: 8248: 8237: 8234: 8231: 8228: 8225: 8222: 8219: 8216: 8213: 8210: 8207: 8204: 8201: 8198: 8195: 8192: 8189: 8186: 8183: 8180: 8177: 8174: 8168: 8165: 8160: 8157: 8154: 8151: 8148: 8145: 8142: 8139: 8136: 8119:Moyal equation 8115: 8114: 8103: 8100: 8097: 8091: 8087: 8083: 8080: 8077: 8074: 8070: 8066: 8063: 8060: 8057: 8054: 8051: 8048: 8045: 8042: 8039: 8036: 8031: 8027: 8021: 8016: 8013: 8009: 8002: 7999: 7995: 7981: 7978: 7975: 7969: 7958: 7955: 7952: 7949: 7946: 7943: 7913:Main article: 7910: 7907: 7906: 7905: 7894: 7889: 7885: 7881: 7878: 7875: 7872: 7869: 7866: 7863: 7860: 7857: 7854: 7851: 7848: 7845: 7842: 7839: 7836: 7813: 7810: 7807: 7804: 7793: 7792: 7781: 7776: 7772: 7768: 7765: 7762: 7758: 7754: 7751: 7748: 7745: 7740: 7736: 7732: 7729: 7726: 7723: 7719: 7715: 7712: 7709: 7706: 7703: 7673: 7670: 7667: 7639: 7636: 7633: 7628: 7624: 7620: 7616: 7604: 7603: 7592: 7585: 7579: 7575: 7571: 7567: 7563: 7560: 7556: 7552: 7549: 7543: 7540: 7537: 7530: 7526: 7522: 7518: 7514: 7511: 7505: 7502: 7473: 7472: 7461: 7455: 7452: 7449: 7446: 7443: 7440: 7434: 7431: 7428: 7423: 7420: 7417: 7411: 7408: 7375: 7372: 7359: 7342:produced by a 7330: 7327: 7305: 7302: 7298: 7295: 7275: 7264: 7263: 7252: 7247: 7243: 7239: 7234: 7230: 7224: 7220: 7216: 7212: 7209: 7184: 7181: 7160: 7137: 7115: 7111: 7099: 7098: 7087: 7084: 7079: 7075: 7071: 7068: 7063: 7059: 7053: 7049: 7045: 7042: 7037: 7033: 7029: 7026: 7023: 7020: 7017: 7014: 7011: 6986: 6982: 6955: 6951: 6939: 6938: 6927: 6922: 6918: 6912: 6908: 6902: 6898: 6894: 6891: 6866: 6862: 6850: 6849: 6838: 6835: 6832: 6829: 6826: 6823: 6820: 6817: 6814: 6811: 6808: 6803: 6799: 6795: 6792: 6787: 6783: 6777: 6773: 6769: 6766: 6763: 6740: 6719: 6716: 6711: 6707: 6703: 6682: 6679: 6674: 6670: 6649: 6644: 6640: 6635: 6612: 6606: 6602: 6598: 6595: 6590: 6586: 6581: 6575: 6571: 6565: 6561: 6556: 6553: 6529: 6509: 6481: 6461: 6446: 6443: 6416: 6412: 6400: 6399: 6388: 6383: 6379: 6375: 6370: 6366: 6360: 6356: 6352: 6348: 6345: 6325: 6324: 6309: 6303: 6299: 6295: 6291: 6287: 6284: 6277: 6273: 6269: 6264: 6260: 6253: 6249: 6245: 6241: 6215: 6211: 6180: 6176: 6164: 6163: 6152: 6147: 6143: 6137: 6133: 6127: 6123: 6119: 6116: 6093: 6079: 6078: 6067: 6064: 6061: 6058: 6055: 6052: 6049: 6046: 6043: 6040: 6017: 6014: 6010: 6006: 6002: 5998: 5995: 5992: 5989: 5986: 5983: 5959: 5948: 5947: 5936: 5933: 5930: 5927: 5924: 5921: 5918: 5915: 5911: 5907: 5903: 5897: 5893: 5889: 5886: 5881: 5877: 5872: 5866: 5862: 5856: 5852: 5847: 5843: 5840: 5837: 5833: 5829: 5825: 5819: 5815: 5811: 5808: 5803: 5799: 5794: 5789: 5785: 5782: 5777: 5773: 5767: 5763: 5759: 5756: 5751: 5747: 5742: 5738: 5734: 5728: 5724: 5720: 5715: 5711: 5705: 5701: 5697: 5694: 5691: 5688: 5666: 5665: 5654: 5650: 5644: 5640: 5636: 5633: 5628: 5624: 5619: 5613: 5609: 5603: 5599: 5595: 5592: 5567: 5563: 5541: 5536: 5532: 5527: 5501: 5489: 5486: 5473: 5453: 5448: 5444: 5439: 5418: 5407: 5406: 5395: 5390: 5386: 5381: 5377: 5374: 5369: 5365: 5360: 5352: 5348: 5340: 5336: 5332: 5329: 5326: 5322: 5298: 5278: 5273: 5269: 5264: 5254:, with states 5243: 5240: 5235: 5231: 5226: 5222: 5217: 5213: 5209: 5198: 5197: 5185: 5179: 5175: 5171: 5168: 5163: 5159: 5154: 5148: 5144: 5138: 5134: 5130: 5127: 5106: 5105: 5093: 5088: 5084: 5080: 5072: 5068: 5060: 5057: 5053: 5047: 5043: 5039: 5035: 5030: 5026: 5022: 5014: 5010: 4984: 4981: 4976: 4972: 4967: 4963: 4958: 4954: 4950: 4926: 4923: 4920: 4915: 4911: 4890: 4870: 4867: 4862: 4858: 4853: 4849: 4844: 4840: 4836: 4820:Main article: 4817: 4814: 4795: 4789: 4785: 4782: 4778: 4774: 4770: 4765: 4761: 4758: 4754: 4750: 4746: 4741: 4737: 4721: 4720: 4709: 4704: 4698: 4695: 4693: 4690: 4689: 4686: 4683: 4681: 4678: 4677: 4675: 4668: 4665: 4660: 4656: 4651: 4647: 4644: 4640: 4635: 4629: 4626: 4621: 4617: 4612: 4608: 4605: 4601: 4596: 4590: 4587: 4582: 4578: 4573: 4569: 4566: 4562: 4557: 4551: 4548: 4543: 4539: 4534: 4530: 4527: 4523: 4518: 4512: 4509: 4504: 4501: 4477: 4473: 4468: 4447: 4443: 4438: 4417: 4413: 4408: 4387: 4383: 4378: 4349: 4345: 4340: 4336: 4333: 4330: 4326: 4321: 4317: 4283: 4279: 4274: 4253: 4249: 4244: 4217: 4211: 4207: 4204: 4200: 4195: 4191: 4188: 4184: 4179: 4175: 4155: 4151: 4146: 4125: 4121: 4116: 4091: 4087: 4082: 4061: 4057: 4052: 4025: 4019: 4015: 4012: 4008: 4003: 3999: 3996: 3992: 3987: 3983: 3980: 3977: 3973: 3968: 3935: 3932: 3927: 3922: 3917: 3913: 3909: 3904: 3899: 3894: 3890: 3869: 3865: 3860: 3856: 3853: 3850: 3846: 3841: 3837: 3813: 3809: 3804: 3783: 3779: 3774: 3732: 3726: 3723: 3721: 3718: 3717: 3714: 3711: 3709: 3706: 3705: 3703: 3692: 3665: 3659: 3656: 3654: 3651: 3650: 3647: 3644: 3642: 3639: 3638: 3636: 3625: 3608: 3605: 3588: 3585: 3580: 3575: 3571: 3567: 3562: 3557: 3553: 3549: 3544: 3539: 3535: 3523: 3522: 3511: 3506: 3500: 3497: 3494: 3492: 3489: 3488: 3485: 3482: 3480: 3477: 3476: 3474: 3469: 3464: 3460: 3455: 3450: 3444: 3441: 3439: 3436: 3435: 3432: 3429: 3426: 3424: 3421: 3420: 3418: 3413: 3408: 3404: 3399: 3394: 3388: 3385: 3383: 3380: 3379: 3376: 3373: 3371: 3368: 3367: 3365: 3360: 3355: 3351: 3323: 3318: 3314: 3310: 3305: 3301: 3297: 3292: 3288: 3284: 3273: 3272: 3261: 3257: 3251: 3247: 3241: 3237: 3233: 3228: 3224: 3218: 3214: 3210: 3205: 3201: 3195: 3191: 3187: 3184: 3180: 3174: 3171: 3166: 3163: 3137: 3134: 3131: 3120:Pauli matrices 3077: 3076: 3065: 3060: 3054: 3051: 3049: 3046: 3045: 3042: 3039: 3037: 3034: 3033: 3031: 3024: 3021: 3016: 3012: 3008: 3005: 3002: 2999: 2995: 2971: 2966: 2960: 2956: 2953: 2948: 2944: 2939: 2935: 2932: 2927: 2923: 2918: 2914: 2911: 2908: 2905: 2901: 2872: 2867: 2863: 2858: 2837: 2832: 2828: 2823: 2811: 2810: 2799: 2794: 2788: 2785: 2783: 2780: 2779: 2776: 2773: 2771: 2768: 2767: 2765: 2758: 2755: 2750: 2747: 2724: 2719: 2715: 2710: 2689: 2684: 2680: 2675: 2659: 2658: 2647: 2644: 2641: 2636: 2632: 2628: 2625: 2622: 2613:one, that is, 2607: 2596: 2591: 2587: 2583: 2580: 2565: 2554: 2543: 2539: 2535: 2532: 2529: 2526: 2522: 2518: 2515: 2495: 2492: 2488: 2463: 2460: 2446: 2443: 2440: 2418: 2415: 2412: 2407: 2404: 2401: 2397: 2392: 2388: 2363: 2360: 2356: 2330: 2327: 2324: 2319: 2316: 2313: 2309: 2304: 2300: 2296: 2293: 2271: 2265: 2236: 2232: 2211: 2207: 2202: 2197: 2194: 2191: 2186: 2183: 2180: 2176: 2171: 2167: 2162: 2156: 2152: 2147: 2143: 2140: 2137: 2133: 2130: 2127: 2122: 2118: 2115: 2110: 2106: 2101: 2096: 2093: 2090: 2086: 2083: 2080: 2077: 2074: 2052: 2046: 2021: 2017: 1996: 1974: 1968: 1962: 1957: 1951: 1928: 1925: 1921: 1891: 1887: 1865: 1860: 1856: 1852: 1830: 1825: 1821: 1817: 1812: 1807: 1803: 1799: 1793: 1789: 1783: 1779: 1754: 1750: 1745: 1741: 1737: 1732: 1727: 1723: 1719: 1713: 1709: 1703: 1699: 1695: 1692: 1668: 1664: 1659: 1654: 1649: 1645: 1641: 1636: 1631: 1627: 1623: 1617: 1613: 1607: 1603: 1598: 1592: 1588: 1583: 1579: 1576: 1573: 1569: 1564: 1560: 1556: 1550: 1546: 1541: 1536: 1532: 1528: 1522: 1518: 1512: 1508: 1504: 1501: 1498: 1495: 1492: 1470: 1466: 1442: 1412: 1408: 1387: 1382: 1378: 1373: 1329: 1324: 1321: 1317: 1313: 1289: 1286: 1282: 1261: 1258: 1254: 1226: 1217: 1213: 1209: 1205: 1200: 1196: 1192: 1191: 1186: 1182: 1178: 1174: 1170: 1166: 1165: 1162: 1158: 1154: 1145: 1141: 1137: 1133: 1129: 1125: 1124: 1119: 1115: 1111: 1107: 1103: 1099: 1098: 1095: 1091: 1088: 1083: 1080: 1076: 1072: 1048: 1045: 1041: 1020: 1017: 1013: 994:density matrix 974: 971: 955: 954: 943: 908:quantum states 892:density matrix 882: 881: 879: 878: 871: 864: 856: 853: 852: 848: 847: 842: 837: 832: 827: 822: 817: 812: 807: 802: 797: 792: 787: 782: 777: 772: 767: 762: 757: 752: 747: 742: 737: 732: 727: 722: 717: 712: 707: 702: 697: 692: 687: 682: 677: 672: 667: 662: 657: 652: 647: 642: 637: 632: 627: 622: 616: 615: 612: 611: 608: 607: 604: 603: 598: 593: 588: 586:Density matrix 583: 578: 573: 568: 563: 558: 552: 549: 548: 545: 544: 540: 539: 534: 529: 524: 519: 514: 509: 508: 507: 506: 505: 490: 485: 480: 475: 470: 464: 463: 458: 457: 454: 453: 449: 448: 443: 438: 433: 428: 422: 421: 418: 417: 414: 413: 409: 408: 403: 398: 393: 388: 383: 377: 376: 375: 369: 366: 365: 362: 361: 357: 356: 351: 346: 340: 339: 338: 337: 336: 334:Delayed-choice 329:Quantum eraser 324: 323: 318: 313: 308: 303: 298: 293: 288: 283: 278: 272: 271: 268: 267: 264: 263: 259: 258: 257: 256: 246: 241: 236: 231: 226: 221: 219:Quantum number 216: 211: 206: 201: 196: 191: 185: 184: 181: 180: 177: 176: 172: 171: 166: 160: 159: 158: 153: 148: 142: 139: 138: 135: 134: 133: 132: 127: 122: 114: 113: 108: 97: 94: 90: 83: 80: 74: 71: 68: 64: 57: 54: 50: 45: 42: 31: 30: 24: 23: 15: 9: 6: 4: 3: 2: 12109: 12098: 12095: 12093: 12090: 12088: 12085: 12083: 12080: 12079: 12077: 12062: 12054: 12053: 12050: 12044: 12041: 12039: 12036: 12034: 12031: 12027: 12024: 12023: 12022: 12019: 12018: 12016: 12012: 12006: 12003: 12001: 11998: 11994: 11991: 11990: 11989: 11986: 11984: 11981: 11979: 11976: 11974: 11971: 11970: 11968: 11964: 11958: 11955: 11953: 11950: 11948: 11945: 11943: 11940: 11938: 11935: 11933: 11930: 11928: 11925: 11923: 11920: 11918: 11915: 11913: 11910: 11908: 11905: 11903: 11900: 11898: 11897:Quantum logic 11895: 11893: 11890: 11888: 11885: 11883: 11880: 11878: 11875: 11873: 11870: 11868: 11865: 11863: 11860: 11856: 11853: 11852: 11851: 11848: 11846: 11843: 11841: 11838: 11836: 11833: 11829: 11826: 11825: 11824: 11821: 11819: 11816: 11814: 11811: 11809: 11806: 11805: 11803: 11801: 11797: 11791: 11788: 11786: 11783: 11781: 11778: 11776: 11773: 11771: 11768: 11766: 11763: 11761: 11758: 11756: 11753: 11751: 11750:Quantum chaos 11748: 11746: 11743: 11741: 11738: 11737: 11735: 11733: 11729: 11723: 11720: 11718: 11717:Stern–Gerlach 11715: 11713: 11710: 11708: 11705: 11703: 11700: 11698: 11695: 11693: 11690: 11688: 11685: 11683: 11680: 11678: 11675: 11673: 11670: 11669: 11667: 11663: 11657: 11654: 11652: 11651:Transactional 11649: 11647: 11644: 11642: 11641:Quantum logic 11639: 11637: 11634: 11632: 11629: 11623: 11620: 11619: 11618: 11615: 11614: 11613: 11610: 11608: 11605: 11603: 11600: 11598: 11595: 11593: 11590: 11588: 11585: 11584: 11582: 11580: 11576: 11570: 11567: 11565: 11562: 11560: 11557: 11555: 11552: 11550: 11547: 11546: 11544: 11540: 11534: 11531: 11529: 11526: 11524: 11521: 11519: 11516: 11514: 11511: 11509: 11506: 11504: 11501: 11500: 11498: 11494: 11486: 11483: 11481: 11478: 11477: 11476: 11475:Wave function 11473: 11471: 11468: 11466: 11463: 11461: 11458: 11456: 11453: 11451: 11450:Superposition 11448: 11446: 11445:Quantum state 11443: 11441: 11438: 11436: 11433: 11431: 11428: 11426: 11423: 11421: 11418: 11416: 11413: 11409: 11406: 11404: 11401: 11399: 11398:Excited state 11396: 11394: 11391: 11390: 11389: 11386: 11384: 11381: 11379: 11376: 11374: 11371: 11369: 11366: 11365: 11363: 11359: 11353: 11350: 11348: 11345: 11343: 11340: 11336: 11333: 11332: 11331: 11328: 11326: 11323: 11322: 11320: 11316: 11312: 11305: 11300: 11298: 11293: 11291: 11286: 11285: 11282: 11270: 11267: 11265: 11262: 11260: 11259: 11254: 11248: 11247: 11244: 11238: 11235: 11233: 11230: 11228: 11227:Pseudoinverse 11225: 11223: 11220: 11218: 11215: 11213: 11210: 11208: 11205: 11203: 11200: 11199: 11197: 11195:Related terms 11193: 11187: 11186:Z (chemistry) 11184: 11182: 11179: 11177: 11174: 11172: 11169: 11167: 11164: 11162: 11159: 11157: 11154: 11152: 11149: 11147: 11144: 11142: 11139: 11137: 11134: 11132: 11129: 11127: 11124: 11123: 11121: 11117: 11111: 11108: 11106: 11103: 11101: 11098: 11096: 11093: 11091: 11088: 11086: 11083: 11081: 11078: 11076: 11073: 11072: 11070: 11068: 11063: 11057: 11054: 11052: 11049: 11047: 11044: 11042: 11039: 11037: 11034: 11032: 11029: 11027: 11024: 11022: 11019: 11017: 11014: 11012: 11009: 11008: 11006: 11004: 10999: 10993: 10990: 10988: 10985: 10983: 10980: 10978: 10975: 10973: 10970: 10968: 10965: 10963: 10960: 10958: 10955: 10953: 10950: 10948: 10945: 10943: 10940: 10938: 10935: 10933: 10930: 10928: 10925: 10923: 10920: 10918: 10915: 10913: 10910: 10908: 10905: 10903: 10900: 10898: 10895: 10893: 10890: 10888: 10885: 10883: 10880: 10878: 10875: 10873: 10870: 10868: 10865: 10863: 10860: 10858: 10855: 10853: 10850: 10848: 10845: 10843: 10840: 10839: 10837: 10833: 10827: 10824: 10822: 10819: 10817: 10814: 10812: 10809: 10807: 10804: 10802: 10799: 10797: 10794: 10792: 10789: 10787: 10784: 10782: 10779: 10777: 10773: 10770: 10768: 10765: 10764: 10762: 10760: 10756: 10751: 10745: 10742: 10740: 10737: 10735: 10732: 10730: 10727: 10725: 10722: 10720: 10717: 10715: 10712: 10710: 10707: 10706: 10704: 10702: 10697: 10691: 10688: 10686: 10683: 10681: 10678: 10676: 10673: 10671: 10668: 10666: 10663: 10661: 10658: 10656: 10653: 10651: 10648: 10646: 10643: 10642: 10640: 10636: 10630: 10627: 10625: 10622: 10620: 10617: 10615: 10612: 10610: 10607: 10605: 10602: 10600: 10597: 10595: 10592: 10590: 10587: 10585: 10582: 10580: 10577: 10575: 10572: 10570: 10567: 10565: 10562: 10560: 10557: 10555: 10552: 10550: 10547: 10545: 10544:Pentadiagonal 10542: 10540: 10537: 10535: 10532: 10530: 10527: 10525: 10522: 10520: 10517: 10515: 10512: 10510: 10507: 10505: 10502: 10500: 10497: 10495: 10492: 10490: 10487: 10485: 10482: 10480: 10477: 10475: 10472: 10470: 10467: 10465: 10462: 10460: 10457: 10455: 10452: 10450: 10447: 10445: 10442: 10440: 10437: 10435: 10432: 10430: 10427: 10425: 10422: 10420: 10417: 10415: 10412: 10410: 10407: 10405: 10402: 10400: 10397: 10395: 10392: 10390: 10387: 10385: 10382: 10380: 10377: 10375: 10374:Anti-diagonal 10372: 10370: 10367: 10366: 10364: 10360: 10355: 10348: 10343: 10341: 10336: 10334: 10329: 10328: 10325: 10314: 10310: 10306: 10302: 10298: 10294: 10287: 10279: 10273: 10269: 10265: 10261: 10254: 10252: 10243: 10239: 10235: 10231: 10225: 10218: 10212: 10208: 10204: 10197: 10190: 10184: 10180: 10176: 10172: 10165: 10157: 10153: 10149: 10145: 10141: 10137: 10133: 10129: 10124: 10119: 10116:(260401): 6. 10115: 10111: 10104: 10096: 10092: 10088: 10084: 10080: 10076: 10072: 10068: 10063: 10058: 10055:(3): 033024. 10054: 10050: 10043: 10035: 10031: 10027: 10023: 10019: 10015: 10010: 10005: 10001: 9997: 9990: 9982: 9978: 9974: 9968: 9964: 9960: 9959: 9954: 9948: 9941: 9935: 9931: 9924: 9917: 9911: 9907: 9906: 9898: 9891: 9885: 9881: 9880: 9872: 9864: 9858: 9855:. MIT Press. 9854: 9853: 9848: 9842: 9834: 9830: 9826: 9822: 9818: 9814: 9810: 9806: 9801: 9796: 9792: 9788: 9781: 9773: 9769: 9765: 9761: 9757: 9753: 9748: 9743: 9739: 9735: 9734: 9729: 9723: 9715: 9711: 9707: 9703: 9699: 9695: 9691: 9687: 9682: 9677: 9673: 9669: 9668: 9663: 9657: 9649: 9645: 9640: 9635: 9631: 9627: 9626: 9621: 9617: 9611: 9604: 9598: 9594: 9590: 9586: 9582: 9576: 9568: 9564: 9560: 9556: 9552: 9548: 9543: 9538: 9534: 9530: 9529: 9524: 9517: 9513: 9509: 9505: 9501: 9497: 9496: 9491: 9485: 9477: 9473: 9469: 9465: 9461: 9457: 9453: 9449: 9448: 9443: 9436: 9428: 9424: 9420: 9416: 9412: 9408: 9404: 9400: 9395: 9390: 9387:(1): 95–102. 9386: 9382: 9381: 9373: 9365: 9361: 9357: 9353: 9349: 9343: 9339: 9335: 9330: 9325: 9321: 9314: 9312: 9303: 9299: 9295: 9289: 9285: 9284: 9279: 9273: 9271: 9269: 9260: 9256: 9249: 9241: 9235: 9231: 9227: 9226: 9218: 9216: 9214: 9212: 9210: 9208: 9206: 9197: 9191: 9187: 9183: 9179: 9172: 9170: 9168: 9159: 9155: 9151: 9149:3-540-42082-7 9145: 9141: 9137: 9131: 9123: 9119: 9115: 9111: 9107: 9103: 9096: 9094: 9085: 9079: 9075: 9068: 9064: 9053: 9050: 9048: 9045: 9043: 9040: 9038: 9035: 9033: 9030: 9028: 9025: 9024: 9017: 9014: 9012: 9008: 9005: 9001: 8997: 8993: 8983: 8979: 8977: 8973: 8969: 8965: 8962: 8957: 8955: 8951: 8947: 8943: 8938: 8936: 8932: 8928: 8924: 8921:are positive 8920: 8916: 8913: 8880: 8876: 8864: 8860: 8849: 8844: 8841: 8838: 8834: 8813: 8788: 8784: 8758: 8738: 8730: 8726: 8722: 8718: 8714: 8710: 8707: 8703: 8699: 8695: 8691: 8687: 8683: 8680: 8675: 8672: 8669: 8665: 8646: 8643: 8640: 8634: 8631: 8620: 8614: 8608: 8600: 8584: 8564: 8542: 8539: 8531: 8520: 8496: 8473: 8467: 8463: 8456: 8453: 8450: 8444: 8441: 8438: 8435: 8427: 8423: 8420: 8419: 8418: 8409: 8407: 8388: 8385: 8382: 8379: 8376: 8370: 8350: 8342: 8338: 8333: 8331: 8327: 8326:Moyal bracket 8305: 8302: 8299: 8270: 8267: 8264: 8258: 8235: 8223: 8220: 8217: 8211: 8208: 8202: 8199: 8196: 8193: 8190: 8184: 8175: 8172: 8166: 8155: 8152: 8149: 8146: 8143: 8137: 8124: 8123: 8122: 8120: 8101: 8098: 8095: 8085: 8081: 8078: 8075: 8072: 8068: 8061: 8058: 8055: 8049: 8043: 8040: 8037: 8029: 8025: 8011: 8007: 7997: 7993: 7967: 7953: 7950: 7947: 7941: 7934: 7933: 7932: 7930: 7926: 7922: 7916: 7892: 7887: 7879: 7873: 7867: 7861: 7855: 7849: 7846: 7840: 7834: 7827: 7826: 7825: 7808: 7802: 7779: 7770: 7766: 7763: 7760: 7756: 7749: 7743: 7734: 7730: 7727: 7724: 7721: 7717: 7713: 7707: 7701: 7694: 7693: 7692: 7689: 7687: 7668: 7657: 7653: 7634: 7614: 7590: 7583: 7565: 7561: 7558: 7554: 7550: 7547: 7541: 7538: 7516: 7512: 7500: 7493: 7492: 7491: 7489: 7485: 7480: 7478: 7459: 7450: 7447: 7444: 7438: 7432: 7429: 7421: 7418: 7406: 7399: 7398: 7397: 7395: 7391: 7387: 7381: 7371: 7357: 7349: 7345: 7328: 7325: 7303: 7300: 7296: 7293: 7273: 7250: 7245: 7241: 7237: 7232: 7228: 7222: 7218: 7214: 7210: 7207: 7199: 7198: 7197: 7182: 7179: 7158: 7149: 7135: 7113: 7109: 7085: 7077: 7073: 7066: 7061: 7057: 7051: 7047: 7043: 7035: 7031: 7024: 7021: 7015: 7009: 7002: 7001: 7000: 6984: 6980: 6971: 6953: 6949: 6925: 6920: 6916: 6910: 6906: 6900: 6896: 6892: 6889: 6882: 6881: 6880: 6864: 6860: 6836: 6830: 6827: 6824: 6821: 6815: 6812: 6809: 6806: 6801: 6797: 6793: 6790: 6785: 6781: 6775: 6771: 6767: 6764: 6761: 6754: 6753: 6752: 6738: 6717: 6714: 6709: 6705: 6701: 6680: 6677: 6672: 6668: 6642: 6638: 6604: 6600: 6588: 6584: 6573: 6569: 6563: 6559: 6554: 6551: 6543: 6527: 6507: 6499: 6495: 6479: 6459: 6452: 6442: 6440: 6436: 6432: 6414: 6410: 6386: 6381: 6377: 6373: 6368: 6364: 6358: 6354: 6350: 6346: 6343: 6334: 6333: 6332: 6330: 6327:when outcome 6307: 6301: 6297: 6293: 6289: 6285: 6282: 6275: 6271: 6267: 6262: 6258: 6251: 6247: 6243: 6239: 6231: 6230: 6229: 6213: 6209: 6200: 6196: 6178: 6174: 6150: 6145: 6141: 6135: 6131: 6125: 6121: 6117: 6114: 6107: 6106: 6105: 6091: 6084:Moreover, if 6082: 6062: 6059: 6053: 6050: 6047: 6041: 6031: 6030: 6029: 6012: 6004: 5996: 5990: 5984: 5973: 5957: 5934: 5928: 5925: 5919: 5916: 5913: 5909: 5905: 5895: 5891: 5879: 5875: 5864: 5860: 5854: 5850: 5845: 5841: 5838: 5835: 5831: 5827: 5817: 5813: 5801: 5797: 5787: 5783: 5780: 5775: 5771: 5765: 5761: 5757: 5749: 5745: 5736: 5726: 5722: 5713: 5709: 5703: 5699: 5695: 5689: 5679: 5678: 5677: 5675: 5671: 5652: 5642: 5638: 5626: 5622: 5611: 5607: 5601: 5597: 5593: 5590: 5583: 5582: 5581: 5565: 5561: 5534: 5530: 5515: 5499: 5485: 5471: 5446: 5442: 5416: 5388: 5384: 5375: 5367: 5363: 5350: 5346: 5338: 5334: 5330: 5312: 5311: 5310: 5309:we have that 5296: 5271: 5267: 5233: 5229: 5220: 5215: 5211: 5177: 5173: 5161: 5157: 5146: 5142: 5136: 5132: 5128: 5125: 5118: 5117: 5116: 5114: 5113:purifications 5109: 5091: 5086: 5082: 5078: 5070: 5066: 5058: 5055: 5051: 5045: 5041: 5037: 5033: 5028: 5024: 5020: 5012: 5008: 4998: 4997: 4996: 4974: 4970: 4961: 4956: 4952: 4940: 4924: 4921: 4918: 4913: 4909: 4888: 4860: 4856: 4847: 4842: 4838: 4823: 4813: 4811: 4793: 4787: 4772: 4759: 4748: 4726: 4707: 4702: 4696: 4691: 4684: 4679: 4673: 4666: 4663: 4658: 4627: 4624: 4619: 4588: 4585: 4580: 4549: 4546: 4541: 4510: 4507: 4502: 4499: 4492: 4491: 4490: 4367: 4363: 4334: 4331: 4315: 4307: 4303: 4299: 4295: 4233: 4215: 4209: 4189: 4105: 4041: 4023: 4017: 3997: 3978: 3957: 3953: 3949: 3933: 3930: 3925: 3915: 3907: 3902: 3892: 3854: 3851: 3835: 3827: 3826:superposition 3763: 3759: 3755: 3730: 3724: 3719: 3712: 3707: 3701: 3663: 3657: 3652: 3645: 3640: 3634: 3613: 3604: 3602: 3586: 3583: 3578: 3573: 3569: 3565: 3560: 3555: 3551: 3547: 3542: 3537: 3533: 3509: 3504: 3498: 3495: 3490: 3483: 3478: 3472: 3467: 3462: 3458: 3453: 3448: 3442: 3437: 3430: 3427: 3422: 3416: 3411: 3406: 3402: 3397: 3392: 3386: 3381: 3374: 3369: 3363: 3358: 3353: 3349: 3341: 3340: 3339: 3337: 3316: 3312: 3308: 3303: 3299: 3295: 3290: 3286: 3259: 3255: 3249: 3245: 3239: 3235: 3231: 3226: 3222: 3216: 3212: 3208: 3203: 3199: 3193: 3189: 3185: 3182: 3178: 3172: 3169: 3164: 3161: 3154: 3153: 3152: 3150: 3135: 3132: 3129: 3121: 3117: 3113: 3109: 3105: 3097: 3093: 3088: 3084: 3082: 3063: 3058: 3052: 3047: 3040: 3035: 3029: 3022: 3019: 3014: 3006: 2997: 2985: 2984: 2983: 2969: 2964: 2958: 2946: 2942: 2933: 2925: 2921: 2909: 2903: 2890: 2886: 2865: 2861: 2830: 2826: 2797: 2792: 2786: 2781: 2774: 2769: 2763: 2756: 2753: 2748: 2745: 2738: 2737: 2736: 2717: 2713: 2682: 2678: 2664: 2663:superposition 2645: 2642: 2634: 2630: 2623: 2620: 2612: 2608: 2594: 2589: 2585: 2581: 2578: 2570: 2566: 2563: 2559: 2555: 2541: 2533: 2524: 2516: 2513: 2490: 2477: 2476:outer product 2473: 2472: 2471: 2469: 2459: 2444: 2438: 2416: 2410: 2405: 2399: 2395: 2390: 2386: 2377: 2345: 2328: 2322: 2317: 2311: 2307: 2302: 2298: 2294: 2291: 2269: 2252: 2251:partial trace 2234: 2230: 2209: 2205: 2200: 2195: 2189: 2184: 2178: 2174: 2169: 2165: 2160: 2154: 2145: 2141: 2138: 2135: 2131: 2125: 2120: 2116: 2113: 2108: 2099: 2094: 2088: 2084: 2078: 2072: 2050: 2019: 1994: 1972: 1960: 1955: 1909: 1907: 1889: 1885: 1863: 1858: 1854: 1850: 1828: 1823: 1819: 1815: 1810: 1805: 1801: 1797: 1791: 1787: 1781: 1777: 1768: 1752: 1748: 1743: 1739: 1735: 1730: 1725: 1721: 1717: 1711: 1707: 1701: 1697: 1693: 1690: 1682: 1666: 1662: 1657: 1652: 1647: 1643: 1639: 1634: 1629: 1625: 1621: 1615: 1611: 1605: 1601: 1596: 1590: 1581: 1577: 1574: 1571: 1567: 1562: 1558: 1554: 1548: 1539: 1534: 1530: 1526: 1520: 1516: 1510: 1506: 1502: 1496: 1490: 1468: 1456: 1440: 1432: 1428: 1410: 1406: 1380: 1376: 1362: 1361:Hilbert space 1358: 1354: 1350: 1345: 1344:, see below. 1343: 1322: 1319: 1315: 1303: 1284: 1256: 1243: 1238: 1224: 1215: 1211: 1203: 1198: 1194: 1184: 1180: 1172: 1168: 1160: 1156: 1152: 1143: 1139: 1131: 1127: 1117: 1113: 1105: 1101: 1093: 1089: 1081: 1078: 1074: 1062: 1061:Hilbert space 1043: 1015: 1001: 999: 995: 991: 988: 984: 980: 970: 968: 964: 960: 952: 948: 944: 941: 940: 939: 937: 933: 929: 925: 924:wavefunctions 921: 917: 913: 912:probabilities 909: 905: 901: 897: 893: 889: 877: 872: 870: 865: 863: 858: 857: 855: 854: 846: 843: 841: 838: 836: 833: 831: 828: 826: 823: 821: 818: 816: 813: 811: 808: 806: 803: 801: 798: 796: 793: 791: 788: 786: 783: 781: 778: 776: 773: 771: 768: 766: 763: 761: 758: 756: 753: 751: 748: 746: 743: 741: 738: 736: 733: 731: 728: 726: 723: 721: 718: 716: 713: 711: 708: 706: 703: 701: 698: 696: 693: 691: 688: 686: 683: 681: 678: 676: 673: 671: 668: 666: 663: 661: 658: 656: 653: 651: 648: 646: 643: 641: 638: 636: 633: 631: 628: 626: 623: 621: 618: 617: 610: 609: 602: 599: 597: 594: 592: 589: 587: 584: 582: 579: 577: 576:Quantum chaos 574: 572: 569: 567: 564: 562: 559: 557: 554: 553: 547: 546: 538: 535: 533: 532:Transactional 530: 528: 525: 523: 522:Quantum logic 520: 518: 515: 513: 510: 504: 501: 500: 499: 496: 495: 494: 491: 489: 486: 484: 481: 479: 476: 474: 471: 469: 466: 465: 461: 456: 455: 447: 444: 442: 439: 437: 434: 432: 429: 427: 424: 423: 416: 415: 407: 404: 402: 399: 397: 394: 392: 389: 387: 384: 382: 379: 378: 374: 371: 370: 364: 363: 355: 352: 350: 347: 345: 342: 341: 335: 332: 331: 330: 327: 326: 322: 319: 317: 314: 312: 309: 307: 304: 302: 299: 297: 294: 292: 289: 287: 284: 282: 279: 277: 274: 273: 266: 265: 255: 252: 251: 250: 249:Wave function 247: 245: 242: 240: 237: 235: 232: 230: 229:Superposition 227: 225: 222: 220: 217: 215: 212: 210: 207: 205: 202: 200: 197: 195: 192: 190: 187: 186: 179: 178: 170: 167: 165: 162: 161: 157: 154: 152: 149: 147: 144: 143: 137: 136: 131: 128: 126: 123: 121: 118: 117: 116: 115: 111: 78: 72: 55: 52: 48: 40: 33: 32: 29: 26: 25: 21: 20: 11780:Quantum mind 11692:Franck–Hertz 11554:Klein–Gordon 11503:Formulations 11496:Formulations 11425:Interference 11415:Entanglement 11393:Ground state 11388:Energy level 11382: 11361:Fundamentals 11325:Introduction 11249: 11181:Substitution 11130: 11067:graph theory 10564:Quaternionic 10554:Persymmetric 10296: 10292: 10286: 10259: 10241: 10237: 10224: 10202: 10196: 10174: 10164: 10113: 10109: 10103: 10052: 10048: 10042: 9999: 9995: 9989: 9957: 9947: 9929: 9923: 9904: 9897: 9878: 9871: 9851: 9841: 9790: 9786: 9780: 9737: 9731: 9722: 9671: 9665: 9656: 9629: 9623: 9610: 9584: 9575: 9532: 9526: 9502:(5–8): 322. 9499: 9493: 9484: 9451: 9445: 9435: 9384: 9378: 9372: 9319: 9281: 9278:Peres, Asher 9254: 9248: 9224: 9177: 9139: 9130: 9108:(1): 74–93. 9105: 9101: 9073: 9067: 9015: 8989: 8980: 8975: 8971: 8967: 8963: 8958: 8953: 8945: 8941: 8939: 8934: 8926: 8914: 8908: 8729:Hartree–Fock 8721:uncorrelated 8415: 8334: 8250: 8116: 7923:. Under the 7918: 7794: 7690: 7685: 7655: 7651: 7605: 7481: 7474: 7393: 7389: 7384:Just as the 7383: 7343: 7286:, except if 7265: 7150: 7100: 6940: 6851: 6448: 6401: 6328: 6326: 6165: 6083: 6080: 5949: 5667: 5491: 5408: 5199: 5110: 5107: 4825: 4809: 4722: 4365: 4305: 4296: 4103: 3751: 3601:Bloch sphere 3525:Points with 3524: 3274: 3101: 3092:Bloch sphere 3078: 2884: 2812: 2660: 2465: 2249:denotes the 1910: 1680: 1483:is given by 1426: 1355:operator of 1346: 1242:real numbers 1239: 1002: 997: 993: 982: 976: 956: 936:mixed states 935: 931: 916:measurements 895: 891: 885: 585: 431:Klein–Gordon 367:Formulations 204:Energy level 199:Entanglement 182:Fundamentals 169:Interference 120:Introduction 12038:EPR paradox 11818:Quantum bus 11687:Double-slit 11665:Experiments 11631:Many-worlds 11569:Schrödinger 11533:Phase space 11523:Schrödinger 11513:Interaction 11470:Uncertainty 11440:Nonlocality 11435:Measurement 11430:Decoherence 11420:Hamiltonian 11156:Hamiltonian 11080:Biadjacency 11016:Correlation 10932:Householder 10882:Commutation 10619:Vandermonde 10614:Tridiagonal 10549:Permutation 10539:Nonnegative 10524:Matrix unit 10404:Bisymmetric 9662:Busch, Paul 9581:Busch, Paul 9004:phase-space 9000:Felix Bloch 8406:phase space 7921:phase space 7344:generalized 5674:measurement 5488:Measurement 4995:defined by 1453:when using 987:orthonormal 981:called the 951:decoherence 928:pure states 820:von Neumann 805:Schrödinger 581:EPR paradox 512:Many-worlds 446:Schrödinger 401:Schrödinger 396:Phase-space 386:Interaction 291:Double-slit 269:Experiments 244:Uncertainty 214:Nonlocality 209:Measurement 194:Decoherence 164:Hamiltonian 12097:Lev Landau 12076:Categories 11966:Extensions 11800:Technology 11646:Relational 11597:Copenhagen 11508:Heisenberg 11455:Tunnelling 11318:Background 11056:Transition 11051:Stochastic 11021:Covariance 11003:statistics 10982:Symplectic 10977:Similarity 10806:Unimodular 10801:Orthogonal 10786:Involutory 10781:Invertible 10776:Projection 10772:Idempotent 10714:Convergent 10609:Triangular 10559:Polynomial 10504:Hessenberg 10474:Equivalent 10469:Elementary 10449:Copositive 10439:Conference 10399:Bidiagonal 10123:1806.08171 10062:1509.03770 10009:1911.06282 9447:Erkenntnis 9286:. Kluwer. 8996:Lev Landau 8912:C*-algebra 8668:Fock space 8330:commutator 7925:Wigner map 7684:comes out 7477:commutator 7378:See also: 6544:such that 6199:eigenspace 5514:observable 4901:such that 4362:wave plate 4230:through a 3104:convex set 2571:, that is 2569:idempotent 2558:projection 1455:projectors 815:Sommerfeld 730:Heisenberg 725:Gutzwiller 665:de Broglie 613:Scientists 527:Relational 478:Copenhagen 381:Heisenberg 239:Tunnelling 140:Background 11672:Bell test 11542:Equations 11368:Born rule 11237:Wronskian 11161:Irregular 11151:Gell-Mann 11100:Laplacian 11095:Incidence 11075:Adjacency 11046:Precision 11011:Centering 10917:Generator 10887:Confusion 10872:Circulant 10852:Augmented 10811:Unipotent 10791:Nilpotent 10767:Congruent 10744:Stieltjes 10719:Defective 10709:Companion 10680:Redheffer 10599:Symmetric 10594:Sylvester 10569:Signature 10499:Hermitian 10479:Frobenius 10389:Arrowhead 10369:Alternant 10313:128081459 10244:: 245–272 10087:1367-2630 10034:208006050 9981:860391091 9800:0705.0181 9567:119103479 9476:119980948 9468:1572-8420 9419:0894-9875 9356:973404322 9329:1106.1445 9302:901395752 9261:, London. 9158:318268606 8877:ψ 8873:⟨ 8870:⟩ 8861:ψ 8835:∑ 8794:⟩ 8785:ψ 8644:β 8641:− 8635:⁡ 8615:β 8585:ρ 8540:− 8497:β 8474:β 8454:β 8451:− 8445:⁡ 8436:ρ 8351:ℏ 8306:⋅ 8300:⋅ 8176:− 8164:∂ 8135:∂ 8090:ℏ 8059:− 8050:ψ 8030:∗ 8026:ψ 8020:∞ 8015:∞ 8012:− 8008:∫ 8001:ℏ 7998:π 7888:† 7862:ρ 7835:ρ 7775:ℏ 7744:ρ 7739:ℏ 7722:− 7702:ρ 7672:⟩ 7666:⟨ 7551:− 7539:⁡ 7513:⁡ 7504:ℏ 7451:ρ 7430:⁡ 7422:ρ 7419:⁡ 7410:ℏ 7358:ρ 7326:ρ 7301:ρ 7294:ρ 7274:ρ 7238:ρ 7219:∑ 7208:ρ 7180:ρ 7159:ρ 7136:ρ 7110:ρ 7074:ρ 7048:∑ 7016:ρ 6950:ρ 6917:ρ 6897:∑ 6890:ρ 6861:ρ 6831:ρ 6828:⁡ 6822:ρ 6816:⁡ 6810:− 6798:λ 6794:⁡ 6782:λ 6772:∑ 6768:− 6739:ρ 6706:λ 6702:∑ 6678:≥ 6669:λ 6648:⟩ 6639:φ 6601:φ 6597:⟨ 6594:⟩ 6585:φ 6570:λ 6560:∑ 6552:ρ 6528:ρ 6508:ρ 6498:logarithm 6480:ρ 6374:ρ 6355:∑ 6344:ρ 6294:ρ 6286:⁡ 6268:ρ 6240:ρ 6197:into the 6122:∑ 6060:ρ 6054:⁡ 6045:⟩ 6039:⟨ 6016:⟩ 6013:ψ 5997:ψ 5994:⟨ 5988:⟩ 5982:⟨ 5926:ρ 5920:⁡ 5892:ψ 5888:⟨ 5885:⟩ 5876:ψ 5851:∑ 5842:⁡ 5814:ψ 5810:⟨ 5807:⟩ 5798:ψ 5784:⁡ 5762:∑ 5755:⟩ 5746:ψ 5723:ψ 5719:⟨ 5700:∑ 5693:⟩ 5687:⟨ 5639:ψ 5635:⟨ 5632:⟩ 5623:ψ 5598:∑ 5591:ρ 5540:⟩ 5531:ψ 5472:ρ 5452:⟩ 5417:ρ 5394:⟩ 5373:⟩ 5364:ψ 5335:∑ 5328:⟩ 5325:Ψ 5277:⟩ 5268:ψ 5239:⟩ 5230:ψ 5174:ψ 5170:⟨ 5167:⟩ 5158:ψ 5133:∑ 5126:ρ 5083:ψ 5042:∑ 5025:φ 4980:⟩ 4971:φ 4914:† 4866:⟩ 4857:ψ 4781:⟩ 4757:⟩ 4646:⟨ 4643:⟩ 4607:⟨ 4604:⟩ 4568:⟨ 4565:⟩ 4529:⟨ 4526:⟩ 4500:ρ 4476:⟩ 4446:⟩ 4416:⟩ 4386:⟩ 4348:⟩ 4335:β 4329:⟩ 4316:α 4282:⟩ 4252:⟩ 4203:⟩ 4187:⟩ 4154:⟩ 4124:⟩ 4090:⟩ 4060:⟩ 4011:⟩ 3995:⟩ 3976:⟩ 3916:β 3893:α 3868:⟩ 3855:β 3849:⟩ 3836:α 3812:⟩ 3782:⟩ 3496:− 3459:σ 3428:− 3403:σ 3350:σ 3336:unit ball 3246:σ 3223:σ 3200:σ 3162:ρ 3133:× 3007:ψ 3004:⟨ 3001:⟩ 2998:ψ 2952:⟩ 2943:ψ 2931:⟩ 2922:ψ 2907:⟩ 2904:ψ 2871:⟩ 2862:ψ 2836:⟩ 2827:ψ 2746:ρ 2723:⟩ 2714:ψ 2688:⟩ 2679:ψ 2631:ρ 2624:⁡ 2586:ρ 2579:ρ 2534:ψ 2531:⟨ 2528:⟩ 2525:ψ 2514:ρ 2494:⟩ 2491:ψ 2442:Ψ 2414:Ψ 2403:Ψ 2396:⁡ 2362:⟩ 2359:Ψ 2326:Ψ 2315:Ψ 2308:⁡ 2292:ρ 2193:Ψ 2182:Ψ 2175:⁡ 2151:Π 2142:⁡ 2129:Ψ 2114:⊗ 2105:Π 2092:Ψ 2016:Π 1961:⊗ 1927:⟩ 1924:Ψ 1855:ψ 1820:ψ 1802:ψ 1778:∑ 1740:ψ 1722:ψ 1698:∑ 1691:ρ 1644:ψ 1626:ψ 1602:∑ 1587:Π 1578:⁡ 1559:ψ 1545:Π 1531:ψ 1507:∑ 1465:Π 1386:⟩ 1377:ψ 1353:Hermitian 1316:ρ 1288:⟩ 1260:⟩ 1204:∗ 1195:ρ 1181:ρ 1140:ρ 1128:ρ 1114:ρ 1102:ρ 1075:ρ 1047:⟩ 1019:⟩ 947:entangled 920:Born rule 845:Zeilinger 690:Ehrenfest 419:Equations 96:⟩ 93:Ψ 82:^ 70:⟩ 67:Ψ 44:ℏ 12061:Category 11855:Timeline 11607:Ensemble 11587:Bayesian 11480:Collapse 11352:Glossary 11335:Timeline 11065:Used in 11001:Used in 10962:Rotation 10937:Jacobian 10897:Distance 10877:Cofactor 10862:Carleman 10842:Adjugate 10826:Weighing 10759:inverses 10755:products 10724:Definite 10655:Identity 10645:Exchange 10638:Constant 10604:Toeplitz 10489:Hadamard 10459:Diagonal 10232:(1927), 10173:(1963), 10156:51684413 10148:30636128 10095:88521187 10002:: 1–57. 9955:(2007). 9833:13251108 9825:18518167 9772:18132256 9706:14525351 9618:(1957). 9427:15995449 9280:(1995). 9138:(2001). 9020:See also 8717:molecule 8489:, where 7650:is some 7329:′ 7304:′ 7211:′ 7183:′ 6968:and the 6625:, where 6520:. Since 6347:′ 6248:′ 5970:denotes 5429:, where 5092:⟩ 5034:⟩ 4810:together 3952:circular 2556:it is a 2445:⟩ 2411:⟨ 2406:⟩ 2323:⟨ 2318:⟩ 2190:⟨ 2185:⟩ 2132:⟩ 2089:⟨ 1864:⟩ 1816:⟨ 1811:⟩ 1736:⟨ 1731:⟩ 1640:⟨ 1635:⟩ 1568:⟩ 1527:⟨ 1427:ensemble 770:Millikan 695:Einstein 680:Davisson 635:Blackett 620:Aharonov 488:Ensemble 468:Bayesian 373:Overview 254:Collapse 234:Symmetry 125:Glossary 12014:Related 11993:History 11732:Science 11564:Rydberg 11330:History 11166:Overlap 11131:Density 11090:Edmonds 10967:Seifert 10927:Hessian 10892:Coxeter 10816:Unitary 10734:Hurwitz 10665:Of ones 10650:Hilbert 10584:Skyline 10529:Metzler 10519:Logical 10514:Integer 10424:Boolean 10356:classes 10128:Bibcode 10067:Bibcode 10014:Bibcode 9805:Bibcode 9752:Bibcode 9714:2168715 9686:Bibcode 9648:0096113 9547:Bibcode 9504:Bibcode 9399:Bibcode 9364:2515538 9110:Bibcode 8986:History 8727:in the 8324:is the 6445:Entropy 6193:is the 5672:of the 3118:of the 3090:In the 2609:it has 1433:result 898:) is a 810:Simmons 800:Rydberg 765:Moseley 745:Kramers 735:Hilbert 720:Glauber 715:Feynman 700:Everett 670:Compton 441:Rydberg 130:History 11707:Popper 11085:Degree 11026:Design 10957:Random 10947:Payoff 10942:Moment 10867:Cartan 10857:Bézout 10796:Normal 10670:Pascal 10660:Lehmer 10589:Sparse 10509:Hollow 10494:Hankel 10429:Cauchy 10354:Matrix 10311: 10274: 10213: 10185: 10154: 10146: 10093: 10085: 10032: 9979: 9969: 9936: 9912: 9886: 9859: 9831: 9823: 9770: 9712: 9704: 9646: 9599: 9565: 9474: 9466: 9425: 9417: 9362: 9354: 9344: 9300: 9290: 9236: 9192: 9156: 9146: 9080: 8919:states 8700:or an 8601:to be 8251:where 7988: 7961: 7606:where 7588: 7457: 6693:, and 6166:where 5950:where 5512:be an 3948:linear 3880:(with 3758:photon 3688: 3684: 3621: 3617: 2813:where 2611:purity 2567:it is 2222:where 900:matrix 840:Zeeman 835:Wigner 785:Planck 755:Landau 740:Jordan 391:Matrix 321:Popper 11617:Local 11559:Pauli 11549:Dirac 11146:Gamma 11110:Tutte 10972:Shear 10685:Shift 10675:Pauli 10624:Walsh 10534:Moore 10414:Block 10309:S2CID 10152:S2CID 10118:arXiv 10091:S2CID 10057:arXiv 10030:S2CID 10004:arXiv 9829:S2CID 9795:arXiv 9768:S2CID 9742:arXiv 9710:S2CID 9676:arXiv 9563:S2CID 9537:arXiv 9472:S2CID 9423:S2CID 9389:arXiv 9360:S2CID 9324:arXiv 6494:trace 6439:POVMs 5972:trace 3954:, or 3824:or a 3112:qubit 3096:qubit 1357:trace 1340:be a 990:basis 795:Raman 780:Pauli 775:Onnes 710:Fermi 685:Debye 675:Dirac 640:Bloch 630:Bethe 498:Local 436:Pauli 426:Dirac 224:State 10952:Pick 10922:Gram 10690:Zero 10394:Band 10272:ISBN 10211:ISBN 10183:ISBN 10144:PMID 10083:ISSN 9977:OCLC 9967:ISBN 9934:ISBN 9910:ISBN 9884:ISBN 9857:ISBN 9821:PMID 9702:PMID 9597:ISBN 9464:ISSN 9415:ISSN 9352:OCLC 9342:ISBN 9298:OCLC 9288:ISBN 9234:ISBN 9190:ISBN 9154:OCLC 9144:ISBN 9078:ISBN 8713:atom 8557:and 7348:POVM 6496:and 6449:The 5668:The 5492:Let 4827:let 4104:seem 3794:and 3338:and 2848:and 2564:one. 2562:rank 996:and 965:and 894:(or 890:, a 830:Wien 825:Weyl 790:Rabi 760:Laue 750:Lamb 705:Fock 660:Bose 655:Born 650:Bohr 645:Bohm 625:Bell 11041:Hat 10774:or 10757:or 10301:doi 10264:doi 10136:doi 10114:121 10075:doi 10022:doi 10000:831 9813:doi 9791:100 9760:doi 9694:doi 9634:doi 9589:doi 9555:doi 9512:doi 9500:443 9456:doi 9407:doi 9334:doi 9182:doi 9118:doi 8952:of 8925:on 8715:or 8632:exp 8442:exp 8339:of 6751:is 4937:(a 4366:can 4306:any 4264:or 3658:0.5 3641:0.5 2346:of 906:as 886:In 12078:: 10307:. 10295:. 10270:. 10250:^ 10240:, 10236:, 10209:, 10205:, 10181:, 10150:. 10142:. 10134:. 10126:. 10112:. 10089:. 10081:. 10073:. 10065:. 10053:18 10051:. 10028:. 10020:. 10012:. 9998:. 9975:. 9965:. 9961:. 9827:. 9819:. 9811:. 9803:. 9789:. 9766:. 9758:. 9750:. 9738:34 9736:. 9708:. 9700:. 9692:. 9684:. 9672:91 9670:. 9644:MR 9642:. 9628:. 9622:. 9595:, 9561:. 9553:. 9545:. 9533:15 9531:. 9510:. 9498:. 9470:. 9462:. 9452:16 9450:. 9444:. 9421:. 9413:. 9405:. 9397:. 9385:19 9383:. 9358:. 9350:. 9340:. 9332:. 9310:^ 9296:. 9267:^ 9257:. 9232:, 9228:, 9204:^ 9188:. 9166:^ 9152:. 9116:. 9106:29 9104:. 9092:^ 8956:. 8704:. 8692:, 8688:, 8408:. 8363:, 8332:. 7931:, 7688:. 7479:. 7370:. 7148:. 6999:: 6825:ln 6813:tr 6791:ln 6283:tr 6051:tr 5958:tr 5917:tr 5839:tr 5781:tr 3950:, 3151:: 3083:. 2646:1. 2621:tr 2458:. 2387:tr 2299:tr 2231:tr 2166:tr 2139:tr 1908:. 1575:tr 1351:, 1272:, 1199:01 1185:01 1144:11 1132:10 1118:01 1106:00 1031:, 969:. 961:, 11303:e 11296:t 11289:v 11171:S 10629:Z 10346:e 10339:t 10332:v 10315:. 10303:: 10297:6 10280:. 10266:: 10242:1 10158:. 10138:: 10130:: 10120:: 10097:. 10077:: 10069:: 10059:: 10036:. 10024:: 10016:: 10006:: 9983:. 9865:. 9835:. 9815:: 9807:: 9797:: 9774:. 9762:: 9754:: 9744:: 9716:. 9696:: 9688:: 9678:: 9650:. 9636:: 9630:6 9591:: 9569:. 9557:: 9549:: 9539:: 9518:. 9514:: 9506:: 9478:. 9458:: 9429:. 9409:: 9401:: 9391:: 9366:. 9336:: 9326:: 9304:. 9243:. 9198:. 9184:: 9160:. 9124:. 9120:: 9112:: 9086:. 8976:H 8974:( 8972:K 8968:H 8966:( 8964:K 8954:A 8946:A 8942:A 8935:A 8927:A 8915:A 8900:. 8887:| 8881:i 8865:i 8856:| 8850:N 8845:1 8842:= 8839:i 8814:N 8789:i 8780:| 8759:N 8739:N 8670:. 8650:) 8647:H 8638:( 8628:r 8625:t 8621:= 8618:) 8612:( 8609:Z 8565:H 8543:1 8536:) 8532:T 8526:B 8521:k 8517:( 8477:) 8471:( 8468:Z 8464:/ 8460:) 8457:H 8448:( 8439:= 8392:) 8389:t 8386:, 8383:p 8380:, 8377:x 8374:( 8371:W 8312:} 8309:} 8303:, 8297:{ 8294:{ 8274:) 8271:p 8268:, 8265:x 8262:( 8259:H 8236:, 8233:} 8230:} 8227:) 8224:p 8221:, 8218:x 8215:( 8212:H 8209:, 8206:) 8203:t 8200:, 8197:p 8194:, 8191:x 8188:( 8185:W 8182:{ 8179:{ 8173:= 8167:t 8159:) 8156:t 8153:, 8150:p 8147:, 8144:x 8141:( 8138:W 8102:. 8099:y 8096:d 8086:/ 8082:y 8079:p 8076:i 8073:2 8069:e 8065:) 8062:y 8056:x 8053:( 8047:) 8044:y 8041:+ 8038:x 8035:( 7994:1 7980:f 7977:e 7974:d 7968:= 7957:) 7954:p 7951:, 7948:x 7945:( 7942:W 7893:. 7884:) 7880:t 7877:( 7874:G 7871:) 7868:0 7865:( 7859:) 7856:t 7853:( 7850:G 7847:= 7844:) 7841:t 7838:( 7812:) 7809:t 7806:( 7803:G 7780:. 7771:/ 7767:t 7764:H 7761:i 7757:e 7753:) 7750:0 7747:( 7735:/ 7731:t 7728:H 7725:i 7718:e 7714:= 7711:) 7708:t 7705:( 7669:A 7638:) 7635:t 7632:( 7627:) 7623:H 7619:( 7615:A 7591:, 7584:] 7578:) 7574:H 7570:( 7566:A 7562:, 7559:H 7555:[ 7548:= 7542:t 7536:d 7529:) 7525:H 7521:( 7517:A 7510:d 7501:i 7460:, 7454:] 7448:, 7445:H 7442:[ 7439:= 7433:t 7427:d 7416:d 7407:i 7297:= 7251:, 7246:i 7242:P 7233:i 7229:P 7223:i 7215:= 7114:i 7086:. 7083:) 7078:i 7070:( 7067:S 7062:i 7058:p 7052:i 7044:+ 7041:) 7036:i 7032:p 7028:( 7025:H 7022:= 7019:) 7013:( 7010:S 6985:i 6981:p 6954:i 6926:, 6921:i 6911:i 6907:p 6901:i 6893:= 6865:i 6837:. 6834:) 6819:( 6807:= 6802:i 6786:i 6776:i 6765:= 6762:S 6718:1 6715:= 6710:i 6681:0 6673:i 6643:i 6634:| 6611:| 6605:i 6589:i 6580:| 6574:i 6564:i 6555:= 6460:S 6415:i 6411:P 6387:. 6382:i 6378:P 6369:i 6365:P 6359:i 6351:= 6329:i 6308:] 6302:i 6298:P 6290:[ 6276:i 6272:P 6263:i 6259:P 6252:= 6244:i 6214:i 6210:a 6179:i 6175:P 6151:, 6146:i 6142:P 6136:i 6132:a 6126:i 6118:= 6115:A 6092:A 6066:) 6063:A 6057:( 6048:= 6042:A 6009:| 6005:A 6001:| 5991:= 5985:A 5935:, 5932:) 5929:A 5923:( 5914:= 5910:) 5906:A 5902:| 5896:j 5880:j 5871:| 5865:j 5861:p 5855:j 5846:( 5836:= 5832:) 5828:A 5824:| 5818:j 5802:j 5793:| 5788:( 5776:j 5772:p 5766:j 5758:= 5750:j 5741:| 5737:A 5733:| 5727:j 5714:j 5710:p 5704:j 5696:= 5690:A 5653:. 5649:| 5643:j 5627:j 5618:| 5612:j 5608:p 5602:j 5594:= 5566:j 5562:p 5535:j 5526:| 5500:A 5447:j 5443:a 5438:| 5389:j 5385:a 5380:| 5376:U 5368:j 5359:| 5351:j 5347:p 5339:j 5331:= 5321:| 5297:U 5272:j 5263:| 5242:} 5234:j 5225:| 5221:, 5216:j 5212:p 5208:{ 5184:| 5178:j 5162:j 5153:| 5147:j 5143:p 5137:j 5129:= 5087:j 5079:| 5071:j 5067:p 5059:j 5056:i 5052:U 5046:j 5038:= 5029:i 5021:| 5013:i 5009:q 4983:} 4975:i 4966:| 4962:, 4957:i 4953:q 4949:{ 4925:I 4922:= 4919:U 4910:U 4889:U 4869:} 4861:j 4852:| 4848:, 4843:j 4839:p 4835:{ 4794:2 4788:/ 4784:) 4777:R 4773:, 4769:L 4764:| 4760:+ 4753:L 4749:, 4745:R 4740:| 4736:( 4708:. 4703:) 4697:1 4692:0 4685:0 4680:1 4674:( 4667:2 4664:1 4659:= 4655:| 4650:V 4639:V 4634:| 4628:2 4625:1 4620:+ 4616:| 4611:H 4600:H 4595:| 4589:2 4586:1 4581:= 4577:| 4572:L 4561:L 4556:| 4550:2 4547:1 4542:+ 4538:| 4533:R 4522:R 4517:| 4511:2 4508:1 4503:= 4472:H 4467:| 4442:V 4437:| 4412:L 4407:| 4382:R 4377:| 4344:L 4339:| 4332:+ 4325:R 4320:| 4278:L 4273:| 4248:R 4243:| 4216:2 4210:/ 4206:) 4199:L 4194:| 4190:+ 4183:R 4178:| 4174:( 4150:L 4145:| 4120:R 4115:| 4086:L 4081:| 4056:R 4051:| 4024:2 4018:/ 4014:) 4007:L 4002:| 3998:+ 3991:R 3986:| 3982:( 3979:= 3972:V 3967:| 3934:1 3931:= 3926:2 3921:| 3912:| 3908:+ 3903:2 3898:| 3889:| 3864:L 3859:| 3852:+ 3845:R 3840:| 3808:L 3803:| 3778:R 3773:| 3746:. 3731:] 3725:0 3720:0 3713:0 3708:1 3702:[ 3679:. 3664:] 3653:0 3646:0 3635:[ 3587:1 3584:= 3579:2 3574:z 3570:r 3566:+ 3561:2 3556:y 3552:r 3548:+ 3543:2 3538:x 3534:r 3510:. 3505:) 3499:1 3491:0 3484:0 3479:1 3473:( 3468:= 3463:z 3454:, 3449:) 3443:0 3438:i 3431:i 3423:0 3417:( 3412:= 3407:y 3398:, 3393:) 3387:0 3382:1 3375:1 3370:0 3364:( 3359:= 3354:x 3322:) 3317:z 3313:r 3309:, 3304:y 3300:r 3296:, 3291:x 3287:r 3283:( 3260:, 3256:) 3250:z 3240:z 3236:r 3232:+ 3227:y 3217:y 3213:r 3209:+ 3204:x 3194:x 3190:r 3186:+ 3183:I 3179:( 3173:2 3170:1 3165:= 3136:2 3130:2 3064:. 3059:) 3053:1 3048:1 3041:1 3036:1 3030:( 3023:2 3020:1 3015:= 3011:| 2994:| 2970:, 2965:2 2959:/ 2955:) 2947:2 2938:| 2934:+ 2926:1 2917:| 2913:( 2910:= 2900:| 2866:2 2857:| 2831:1 2822:| 2798:, 2793:) 2787:1 2782:0 2775:0 2770:1 2764:( 2757:2 2754:1 2749:= 2718:2 2709:| 2683:1 2674:| 2643:= 2640:) 2635:2 2627:( 2595:. 2590:2 2582:= 2542:. 2538:| 2521:| 2517:= 2487:| 2439:| 2417:| 2400:| 2391:2 2355:| 2329:| 2312:| 2303:2 2295:= 2270:2 2264:H 2235:2 2210:, 2206:] 2201:) 2196:| 2179:| 2170:2 2161:( 2155:m 2146:[ 2136:= 2126:| 2121:) 2117:I 2109:m 2100:( 2095:| 2085:= 2082:) 2079:m 2076:( 2073:p 2051:1 2045:H 2020:m 1995:m 1973:2 1967:H 1956:1 1950:H 1920:| 1890:j 1886:p 1859:j 1851:| 1829:| 1824:j 1806:j 1798:| 1792:j 1788:p 1782:j 1753:, 1749:| 1744:j 1726:j 1718:| 1712:j 1708:p 1702:j 1694:= 1667:, 1663:] 1658:) 1653:| 1648:j 1630:j 1622:| 1616:j 1612:p 1606:j 1597:( 1591:m 1582:[ 1572:= 1563:j 1555:| 1549:m 1540:| 1535:j 1521:j 1517:p 1511:j 1503:= 1500:) 1497:m 1494:( 1491:p 1469:m 1441:m 1411:j 1407:p 1381:j 1372:| 1328:) 1323:j 1320:i 1312:( 1285:1 1281:| 1257:0 1253:| 1225:) 1216:1 1212:p 1173:0 1169:p 1161:( 1157:= 1153:) 1094:( 1090:= 1087:) 1082:j 1079:i 1071:( 1044:1 1040:| 1016:0 1012:| 875:e 868:t 861:v 89:| 79:H 73:= 63:| 56:t 53:d 49:d 41:i

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