1777:
290:, and imaged the 3D core structure of edge and screw dislocations at atomic resolution. In 2015, he determined the 3D coordinates of thousands of individual atoms in a material with a 3D precision of 19 pm and addressed Richard Feynman’s 1959 challenge. Later, Miao measured the 3D coordinates of more than 23,000 atoms in an FePt nanoparticle, and correlated chemical order/disorder and crystal defects with material properties at the single-atom level. In 2019, he developed 4D AET to observe crystal nucleation at atomic resolution, showing early stage nucleation results contradict
2170:
31:
2182:
250:
Miao pioneered the development of novel imaging methods using x-rays and electrons, and contributed to theory, computation, and experiment. He proposed the oversampling ratio concept in 1998, which explains under what conditions the phase problem of non-crystalline specimens can be solved. In 1999,
995:
Tian, X.; Kim, D. S.; Yang, S.; Ciccarino, S., C. J.; Gong, Y.; Yang, Y.; Yang, Y.; Duschatko, B.; Yuan, Y.; Ajayan, P. M.; Idrobo, J. C.; Narang, P.; Miao, J. (2020). "Correlating the three-dimensional atomic defects and electronic properties of two-dimensional transition metal dichalcogenides".
878:
Yang, Y.; Chen, C.-C.; Scott, M. C.; Ophus, C.; Xu, R.; Pryor Jr, A.; Wu, L.; Sun, F.; Theis, W.; Zhou, J.; Eisenbach, M.; Kent, P. R. C.; Sabirianov, R. F.; Zeng, H.; Ercius, P.; Miao, J. (2017). "Deciphering chemical order/disorder and material properties at the single-atom level".
816:
Xu, R.; Chen, C.-C.; Wu, L.; Scott, M. C.; Theis, W.; Ophus, C.; Bartels, M.; Yang, Y.; Ramezani-Dakhel, H.; Sawaya, M. R.; Heinz, H.; Marks, L. D.; Ercius, P.; Miao, J. (2015). "Three-Dimensional
Coordinates of Individual Atoms in Materials Revealed by Electron Tomography".
1069:
Yang, Y.; Zhou, J.; Zhu, F.; Yuan, Y.; Chang, D.; Kim, D. S.; Pham, M.; Rana, A.; Tian, X.; Yao, Y.; Osher, S.; Schmid, A. K.; Hu, L.; Ercius, P.; Miao, J. (2021). "Determining the three-dimensional atomic structure of an amorphous solid".
1174:
Yuan, Y.; Kim, D. S.; Zhou, J.; Chang, D. J.; Zhu, F.; Nagaoka, Y.; Yang, Y.; Pham, M.; Osher, S. J.; Chen, O.; Ercius, P.; Schmid, A. K.; Miao, J. (2022). "Three-dimensional atomic packing in amorphous solids with liquid-like structure".
764:
Chen, C. C.; Zhu, C.; White, E. R.; Chiu, C.-Y.; Scott, M. C.; Regan, B. C.; Marks, L. D.; Huang, Y.; Miao, J. (2013). "Three-dimensional imaging of dislocations in a nanoparticle at atomic resolution".
286:
In 2012, Miao applied CDI phase retrieval algorithms to tomography and demonstrated AET at 2.4 Ă… resolution without assuming crystallinity. He then applied AET to observe nearly all the atoms in a Pt
242:. In 2004, he moved to UCLA as an assistant professor and was promoted to full professor in 2009. He has served as the Deputy Director of the STROBE NSF Science and Technology Center since 2016.
294:. Miao also demonstrated scanning AET (sAET) to correlate the 3D atomic defects and electronic properties of 2D materials. In 2021, he determined for the first time the 3D atomic structure of
1786:
2047:
2042:
368:
Miao, J.; Charalambous, P.; Kirz, J.; Sayre, D. (1999). "Extending the methodology of X-ray crystallography to allow imaging of micrometre-sized non-crystalline specimens".
940:
Zhou, J.; Yang, Y.; Yang, Y.; Kim, D. S.; Yuan, A.; Tian, X.; Ophus, C.; Sun, F.; Schmid, A. K.; Nathanson, M.; Heinz, H.; An, Q.; Zeng, H.; Ercius, P.; Miao, J (2019).
1582:
230:
in 1994. He then moved to the U.S. and received a PhD in physics, an M.S. in computer science, and an advanced graduate certificate in biomedical engineering from the
2098:
198:. He performed the first experiment on extending crystallography to allow structural determination of non-crystalline specimens in 1999, which has been known as
2223:
1326:
1055:
1254:
283:, electron and optical microscopy. It has also become one of the justifications for the construction of x-ray free electron lasers worldwide.
1916:
307:
693:
Thibault, P.; Dierolf, M.; Menzel, A.; Bunk, O.; David, C.; Pfeiffer, F. (2008). "High-Resolution
Scanning X-ray Diffraction Microscopy".
1240:
2103:
1828:
235:
1994:
1286:
646:
Rodenburg, J. M.; Hurst, A. C.; Cullis, A. G.; Dobson, B. R.; Pfeiffer, F.; Bunk, O.; David, C.; Jefimovs, K.; Johnson, I. (2007).
611:
Miao, J.; Sayre, D.; Chapman, H. N. (1998). "Phase
Retrieval from the Magnitude of the Fourier transform of Non-periodic Objects".
2093:
2085:
2146:
2124:
195:
146:
2139:
1989:
1655:
1520:
1369:
239:
135:
2129:
2027:
1723:
1376:
2151:
2009:
1979:
1908:
252:
476:
Scott, M. C.; Chen, C. C.; Mecklenburg, M.; Zhu, C.; Xu, X.; Ercius, P.; Dahmen, U.; Regan, B. C.; Miao, J. (2012).
2186:
1861:
223:
191:
2134:
2057:
1931:
1530:
1969:
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1984:
1974:
1279:
206:(AET), enabling the first determination of 3D atomic structures without assuming crystallinity or averaging.
2213:
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1756:
1381:
1359:
268:
260:
199:
91:
2208:
1660:
1414:
1309:
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227:
71:
2017:
1314:
342:
202:(CDI), lensless imaging, or computational microscopy. In 2012, Miao applied the CDI method to pioneer
2032:
1961:
1419:
1409:
313:
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1630:
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1424:
1404:
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1718:
1535:
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78:
647:
2075:
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1049:
272:
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1508:
1399:
1184:
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1005:
953:
898:
836:
774:
702:
659:
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489:
429:
377:
8:
1816:
1804:
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276:
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139:
95:
63:
59:
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706:
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433:
381:
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1821:
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1208:
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1113:
1079:
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562:
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455:
393:
1999:
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1466:
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1212:
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1160:
1148:
1117:
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1029:
1021:
981:
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914:
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675:
583:
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505:
459:
447:
121:
730:
566:
2037:
1843:
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1550:
1483:
1454:
1447:
1192:
1140:
1097:
1013:
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926:
906:
864:
844:
802:
782:
710:
667:
628:
544:
517:
497:
437:
397:
385:
156:
100:
942:"Observing crystal nucleation in four dimensions using atomic electron tomography"
671:
1926:
1921:
1886:
1706:
1605:
1540:
1503:
1498:
1349:
1295:
295:
418:"Beyond crystallography: Diffractive imaging using coherent x-ray light sources"
179:
1736:
1701:
1689:
1684:
1650:
1620:
1610:
1569:
1513:
1437:
1391:
1196:
1144:
1101:
1017:
965:
744:
2202:
1881:
1694:
1493:
941:
714:
632:
549:
532:
477:
442:
417:
1587:
1577:
1471:
1354:
1204:
1152:
1109:
1033:
973:
918:
856:
794:
722:
679:
558:
509:
451:
287:
264:
2070:
1741:
1615:
1442:
161:
910:
786:
501:
1635:
1321:
234:
in 1999. After obtaining his PhD, Miao became a staff scientist in the
165:
125:
1025:
1344:
848:
30:
1941:
1711:
1459:
1084:
893:
831:
44:
1264:
389:
190:
is a
Professor in the Department of Physics and Astronomy and the
1951:
1131:
Voyles, P. (2021). "Atomic structure of a glass imaged at last".
749:
117:
416:
Miao, J.; Ishikawa, T.; Robinson, I. K.; Murnane, M. M. (2015).
597:
1946:
332:
Institute for
Advanced Study (USIAS) Fellowship, France, 2015
48:
533:"Atomic electron tomography: 3D structures without crystals"
298:
and observed the medium-range order in amorphous materials.
415:
645:
2048:
692:
367:
2043:
475:
1936:
1255:"MRS Innovation in Materials Characterization Award"
994:
877:
530:
648:"Hard-X-Ray Lensless Imaging of Extended Objects"
531:Miao, J.; Ercius, P.; Billinge, S. J. L. (2016).
2200:
1173:
763:
610:
478:"Electron tomography at 2.4-ångström resolution"
341:Innovation in Materials Characterization Award,
1068:
939:
2224:University of California, Los Angeles faculty
1280:
815:
251:he conducted the first CDI experiment at the
180:https://www.physics.ucla.edu/research/imaging
1054:: CS1 maint: multiple names: authors list (
598:"STROBE NSF Science & Technology Center"
2117:
232:State University of New York at Stony Brook
79:State University of New York at Stony Brook
1287:
1273:
236:Stanford Synchrotron Radiation Lightsource
29:
1083:
892:
830:
548:
441:
222:) in 1991, and an MS in physics from the
584:"Jianwei (John) Miao, Professor at UCLA"
335:Fellow, American Physical Society, 2016
2201:
1390:
1130:
271:, have been broadly implemented using
1268:
471:
469:
196:University of California, Los Angeles
147:University of California, Los Angeles
2181:
1521:Phase transformation crystallography
578:
576:
411:
409:
407:
363:
361:
359:
240:SLAC National Accelerator Laboratory
136:SLAC National Accelerator Laboratory
2028:Journal of Chemical Crystallography
1294:
1167:
1124:
1062:
214:Miao received a BS in physics from
13:
466:
338:Special NSF Creativity Award, 2018
14:
2240:
573:
404:
356:
253:National Synchrotron Light Source
2180:
2169:
2168:
1775:
322:Theodore von Kármán Fellowship,
308:Werner Meyer-Ilse Memorial Award
224:Institute of High Energy Physics
192:California NanoSystems Institute
1247:
1233:
1219:
988:
933:
871:
809:
757:
737:
314:Alfred P. Sloan Research Fellow
1970:Bilbao Crystallographic Server
686:
639:
604:
590:
524:
257:Brookhaven National Laboratory
1:
672:10.1103/PhysRevLett.98.034801
349:
1227:"Kavli Frontiers of Science"
319:Kavli Frontiers Fellow, 2010
200:coherent diffractive imaging
92:Coherent Diffractive Imaging
7:
2018:Crystal Growth & Design
1310:Timeline of crystallography
292:classical nucleation theory
245:
228:Chinese Academy of Sciences
72:Chinese Academy of Sciences
10:
2245:
1829:Nuclear magnetic resonance
1197:10.1038/s41563-021-01114-z
1145:10.1038/d41586-021-00794-6
1102:10.1038/s41586-021-03354-0
343:Materials Research Society
277:x-ray free electron lasers
204:atomic electron tomography
96:Atomic Electron Tomography
16:Chinese-American physicist
2164:
2084:
2056:
2033:Journal of Crystal Growth
2008:
1960:
1907:
1854:
1785:
1773:
1568:
1559:
1482:
1335:
1302:
1018:10.1038/s41563-020-0636-5
966:10.1038/s41586-019-1317-x
301:
267:(i.e., scanning CDI) and
209:
175:
171:
155:
131:
113:
106:
87:
55:
37:
28:
21:
1899:Single particle analysis
1757:Hermann–Mauguin notation
330:University of Strasbourg
281:high harmonic generation
2023:Crystallography Reviews
1867:Isomorphous replacement
1661:Lomer–Cottrell junction
745:"A Nature video on AET"
715:10.1126/science.1158573
652:Physical Review Letters
633:10.1364/JOSAA.15.001662
550:10.1126/science.aaf2157
443:10.1126/science.aaa1394
259:. CDI methods, such as
99:3D atomic structure of
1536:Spinodal decomposition
324:RWTH Aachen University
2076:Gregori Aminoff Prize
1872:Molecular replacement
273:synchrotron radiation
1382:Structure prediction
2214:American physicists
1646:Cottrell atmosphere
1626:Partial dislocation
1370:Restriction theorem
1189:2022NatMa..21...95Y
1094:2021Natur.592...60Y
1010:2020NatMa..19..867T
958:2019Natur.570..500Z
911:10.1038/nature21042
903:2017Natur.542...75Y
841:2015NatMa..14.1099X
787:10.1038/nature12009
779:2013Natur.496...74C
707:2008Sci...321..379T
664:2007PhRvL..98c4801R
625:1998JOSAA..15.1662M
502:10.1038/nature10934
494:2012Natur.483..444S
434:2015Sci...348..530M
382:1999Natur.400..342M
220:Zhejiang University
216:Hangzhou University
188:Jianwei (John) Miao
140:Stanford University
64:Zhejiang University
60:Hangzhou University
23:Jianwei (John) Miao
2209:Chinese physicists
2066:Carl Hermann Medal
1877:Molecular dynamics
1724:Defects in diamond
1719:Stone–Wales defect
1365:Reciprocal lattice
1327:Biocrystallography
613:J. Opt. Soc. Am. A
2196:
2195:
2160:
2159:
1767:Thermal ellipsoid
1732:
1731:
1641:Frank–Read source
1601:
1600:
1467:Aperiodic crystal
1433:
1432:
1315:Crystallographers
952:(7762): 500–503.
825:(11): 1099–1103.
701:(5887): 379–382.
543:(6306): aaf2157.
488:(7390): 444–447.
428:(6234): 530–535.
376:(6742): 342–344.
185:
184:
122:Materials science
108:Scientific career
2236:
2184:
2183:
2172:
2171:
2115:
2114:
2038:Kristallografija
1892:Gerchberg–Saxton
1787:Characterisation
1779:
1762:Structure factor
1566:
1565:
1551:Ostwald ripening
1388:
1387:
1333:
1332:
1289:
1282:
1275:
1266:
1265:
1259:
1258:
1251:
1245:
1244:
1237:
1231:
1230:
1223:
1217:
1216:
1171:
1165:
1164:
1128:
1122:
1121:
1087:
1066:
1060:
1059:
1053:
1045:
992:
986:
985:
937:
931:
930:
896:
875:
869:
868:
849:10.1038/nmat4426
834:
813:
807:
806:
761:
755:
754:
741:
735:
734:
690:
684:
683:
643:
637:
636:
619:(6): 1662–1669.
608:
602:
601:
594:
588:
587:
580:
571:
570:
552:
528:
522:
521:
473:
464:
463:
445:
413:
402:
401:
365:
296:amorphous solids
157:Doctoral advisor
151:
150:(2004 – present)
144:
101:amorphous solids
83:
76:
69:
33:
19:
18:
2244:
2243:
2239:
2238:
2237:
2235:
2234:
2233:
2199:
2198:
2197:
2192:
2156:
2113:
2080:
2052:
2004:
1956:
1927:CrystalExplorer
1903:
1887:Phase retrieval
1850:
1781:
1780:
1771:
1728:
1707:Schottky defect
1606:Perfect crystal
1597:
1593:Abnormal growth
1555:
1541:Supersaturation
1504:Miscibility gap
1485:
1478:
1429:
1386:
1350:Bravais lattice
1331:
1298:
1296:Crystallography
1293:
1263:
1262:
1253:
1252:
1248:
1239:
1238:
1234:
1225:
1224:
1220:
1172:
1168:
1139:(7852): 31–32.
1129:
1125:
1078:(7852): 60–64.
1067:
1063:
1047:
1046:
993:
989:
938:
934:
887:(7639): 75–79.
876:
872:
814:
810:
773:(7443): 74–77.
762:
758:
743:
742:
738:
691:
687:
644:
640:
609:
605:
596:
595:
591:
582:
581:
574:
529:
525:
474:
467:
414:
405:
366:
357:
352:
326:, Germany, 2013
304:
248:
212:
149:
145:
142:
98:
94:
81:
77:
74:
70:
67:
51:
42:
24:
17:
12:
11:
5:
2242:
2232:
2231:
2226:
2221:
2216:
2211:
2194:
2193:
2191:
2190:
2178:
2165:
2162:
2161:
2158:
2157:
2155:
2154:
2149:
2144:
2143:
2142:
2137:
2132:
2121:
2119:
2112:
2111:
2106:
2101:
2096:
2090:
2088:
2082:
2081:
2079:
2078:
2073:
2068:
2062:
2060:
2054:
2053:
2051:
2050:
2045:
2040:
2035:
2030:
2025:
2020:
2014:
2012:
2006:
2005:
2003:
2002:
1997:
1992:
1987:
1982:
1977:
1972:
1966:
1964:
1958:
1957:
1955:
1954:
1949:
1944:
1939:
1934:
1929:
1924:
1919:
1913:
1911:
1905:
1904:
1902:
1901:
1896:
1895:
1894:
1884:
1879:
1874:
1869:
1864:
1862:Direct methods
1858:
1856:
1852:
1851:
1849:
1848:
1847:
1846:
1841:
1831:
1826:
1825:
1824:
1819:
1809:
1808:
1807:
1802:
1791:
1789:
1783:
1782:
1774:
1772:
1770:
1769:
1764:
1759:
1754:
1749:
1747:Ewald's sphere
1744:
1739:
1733:
1730:
1729:
1727:
1726:
1721:
1716:
1715:
1714:
1709:
1699:
1698:
1697:
1692:
1690:Frenkel defect
1687:
1685:Bjerrum defect
1677:
1676:
1675:
1665:
1664:
1663:
1658:
1653:
1651:Peierls stress
1648:
1643:
1638:
1633:
1628:
1623:
1621:Burgers vector
1613:
1611:Stacking fault
1608:
1602:
1599:
1598:
1596:
1595:
1590:
1585:
1580:
1574:
1572:
1570:Grain boundary
1563:
1557:
1556:
1554:
1553:
1548:
1543:
1538:
1533:
1528:
1523:
1518:
1517:
1516:
1514:Liquid crystal
1511:
1506:
1501:
1490:
1488:
1480:
1479:
1477:
1476:
1475:
1474:
1464:
1463:
1462:
1452:
1451:
1450:
1445:
1434:
1431:
1430:
1428:
1427:
1422:
1417:
1412:
1407:
1402:
1396:
1394:
1385:
1384:
1379:
1377:Periodic table
1374:
1373:
1372:
1367:
1362:
1357:
1352:
1341:
1339:
1330:
1329:
1324:
1319:
1318:
1317:
1306:
1304:
1300:
1299:
1292:
1291:
1284:
1277:
1269:
1261:
1260:
1246:
1232:
1218:
1166:
1123:
1061:
1004:(8): 867–873.
987:
932:
870:
808:
756:
736:
685:
638:
603:
589:
572:
523:
465:
403:
354:
353:
351:
348:
347:
346:
339:
336:
333:
327:
320:
317:
311:
303:
300:
261:plane-wave CDI
247:
244:
211:
208:
183:
182:
177:
173:
172:
169:
168:
159:
153:
152:
133:
129:
128:
115:
111:
110:
104:
103:
89:
88:Known for
85:
84:
57:
53:
52:
43:
39:
35:
34:
26:
25:
22:
15:
9:
6:
4:
3:
2:
2241:
2230:
2227:
2225:
2222:
2220:
2219:Living people
2217:
2215:
2212:
2210:
2207:
2206:
2204:
2189:
2188:
2179:
2177:
2176:
2167:
2166:
2163:
2153:
2150:
2148:
2145:
2141:
2138:
2136:
2133:
2131:
2128:
2127:
2126:
2123:
2122:
2120:
2116:
2110:
2107:
2105:
2102:
2100:
2097:
2095:
2092:
2091:
2089:
2087:
2083:
2077:
2074:
2072:
2069:
2067:
2064:
2063:
2061:
2059:
2055:
2049:
2046:
2044:
2041:
2039:
2036:
2034:
2031:
2029:
2026:
2024:
2021:
2019:
2016:
2015:
2013:
2011:
2007:
2001:
1998:
1996:
1993:
1991:
1988:
1986:
1983:
1981:
1978:
1976:
1973:
1971:
1968:
1967:
1965:
1963:
1959:
1953:
1950:
1948:
1945:
1943:
1940:
1938:
1935:
1933:
1930:
1928:
1925:
1923:
1920:
1918:
1915:
1914:
1912:
1910:
1906:
1900:
1897:
1893:
1890:
1889:
1888:
1885:
1883:
1882:Patterson map
1880:
1878:
1875:
1873:
1870:
1868:
1865:
1863:
1860:
1859:
1857:
1853:
1845:
1842:
1840:
1837:
1836:
1835:
1832:
1830:
1827:
1823:
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1818:
1815:
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1810:
1806:
1803:
1801:
1798:
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1792:
1790:
1788:
1784:
1778:
1768:
1765:
1763:
1760:
1758:
1755:
1753:
1752:Friedel's law
1750:
1748:
1745:
1743:
1740:
1738:
1735:
1734:
1725:
1722:
1720:
1717:
1713:
1710:
1708:
1705:
1704:
1703:
1700:
1696:
1695:Wigner effect
1693:
1691:
1688:
1686:
1683:
1682:
1681:
1680:Interstitials
1678:
1674:
1671:
1670:
1669:
1666:
1662:
1659:
1657:
1654:
1652:
1649:
1647:
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1634:
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1629:
1627:
1624:
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1614:
1612:
1609:
1607:
1604:
1603:
1594:
1591:
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1586:
1584:
1581:
1579:
1576:
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1573:
1571:
1567:
1564:
1562:
1558:
1552:
1549:
1547:
1544:
1542:
1539:
1537:
1534:
1532:
1529:
1527:
1526:Precipitation
1524:
1522:
1519:
1515:
1512:
1510:
1507:
1505:
1502:
1500:
1497:
1496:
1495:
1494:Phase diagram
1492:
1491:
1489:
1487:
1481:
1473:
1470:
1469:
1468:
1465:
1461:
1458:
1457:
1456:
1453:
1449:
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1444:
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1439:
1436:
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1426:
1423:
1421:
1418:
1416:
1413:
1411:
1408:
1406:
1403:
1401:
1398:
1397:
1395:
1393:
1389:
1383:
1380:
1378:
1375:
1371:
1368:
1366:
1363:
1361:
1358:
1356:
1353:
1351:
1348:
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1346:
1343:
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1334:
1328:
1325:
1323:
1320:
1316:
1313:
1312:
1311:
1308:
1307:
1305:
1301:
1297:
1290:
1285:
1283:
1278:
1276:
1271:
1270:
1267:
1256:
1250:
1242:
1236:
1228:
1222:
1214:
1210:
1206:
1202:
1198:
1194:
1190:
1186:
1183:(1): 95–102.
1182:
1178:
1170:
1162:
1158:
1154:
1150:
1146:
1142:
1138:
1134:
1127:
1119:
1115:
1111:
1107:
1103:
1099:
1095:
1091:
1086:
1081:
1077:
1073:
1065:
1057:
1051:
1043:
1039:
1035:
1031:
1027:
1023:
1019:
1015:
1011:
1007:
1003:
999:
991:
983:
979:
975:
971:
967:
963:
959:
955:
951:
947:
943:
936:
928:
924:
920:
916:
912:
908:
904:
900:
895:
890:
886:
882:
874:
866:
862:
858:
854:
850:
846:
842:
838:
833:
828:
824:
820:
812:
804:
800:
796:
792:
788:
784:
780:
776:
772:
768:
760:
752:
751:
746:
740:
732:
728:
724:
720:
716:
712:
708:
704:
700:
696:
689:
681:
677:
673:
669:
665:
661:
658:(3): 034801.
657:
653:
649:
642:
634:
630:
626:
622:
618:
614:
607:
599:
593:
585:
579:
577:
568:
564:
560:
556:
551:
546:
542:
538:
534:
527:
519:
515:
511:
507:
503:
499:
495:
491:
487:
483:
479:
472:
470:
461:
457:
453:
449:
444:
439:
435:
431:
427:
423:
419:
412:
410:
408:
399:
395:
391:
390:10.1038/22498
387:
383:
379:
375:
371:
364:
362:
360:
355:
344:
340:
337:
334:
331:
328:
325:
321:
318:
315:
312:
309:
306:
305:
299:
297:
293:
289:
284:
282:
278:
274:
270:
266:
262:
258:
254:
243:
241:
237:
233:
229:
225:
221:
217:
207:
205:
201:
197:
193:
189:
181:
178:
174:
170:
167:
163:
160:
158:
154:
148:
143:(2000 – 2004)
141:
137:
134:
130:
127:
123:
119:
116:
112:
109:
105:
102:
97:
93:
90:
86:
80:
73:
65:
61:
58:
54:
50:
46:
41:November 1969
40:
36:
32:
27:
20:
2185:
2173:
2118:Associations
2086:Organisation
1578:Disclination
1509:Polymorphism
1472:Quasicrystal
1415:Orthorhombic
1355:Miller index
1303:Key concepts
1249:
1235:
1221:
1180:
1176:
1169:
1136:
1132:
1126:
1075:
1071:
1064:
1050:cite journal
1001:
997:
990:
949:
945:
935:
884:
880:
873:
822:
818:
811:
770:
766:
759:
748:
739:
698:
694:
688:
655:
651:
641:
616:
612:
606:
592:
540:
536:
526:
485:
481:
425:
421:
373:
369:
288:nanoparticle
285:
265:ptychography
249:
213:
187:
186:
132:Institutions
107:
2229:1969 births
2071:Ewald Prize
1839:Diffraction
1817:Diffraction
1800:Diffraction
1742:Bragg plane
1737:Bragg's law
1616:Dislocation
1531:Segregation
1443:Crystallite
1360:Point group
1241:"UCLA News"
162:David Sayre
82:(PhD, 1999)
2203:Categories
1855:Algorithms
1844:Scattering
1822:Scattering
1805:Scattering
1673:Slip bands
1636:Cross slip
1486:transition
1420:Tetragonal
1410:Monoclinic
1322:Metallurgy
1177:Nat. Mater
1085:2004.02266
998:Nat. Mater
894:1607.02051
832:1505.05938
819:Nat. Mater
350:References
166:Janos Kirz
126:Microscopy
75:(MS, 1994)
68:(BS, 1991)
1962:Databases
1425:Triclinic
1405:Hexagonal
1345:Unit cell
1337:Structure
1213:239022109
1161:232481931
1118:214802235
1042:212642445
982:195657117
460:206632996
269:Bragg CDI
56:Education
2175:Category
2010:Journals
1942:OctaDist
1937:JANA2020
1909:Software
1795:Electron
1712:F-center
1499:Eutectic
1460:Fiveling
1455:Twinning
1448:Equiaxed
1205:34663951
1153:33790449
1110:33790443
1034:32152562
974:31243385
919:28150758
857:26390325
795:23535594
731:30125688
723:18635796
680:17358687
567:30174421
559:27708010
510:22437612
452:25931551
246:Research
45:Hangzhou
2187:Commons
2135:Germany
1812:Neutron
1702:Vacancy
1561:Defects
1546:GP-zone
1392:Systems
1185:Bibcode
1090:Bibcode
1026:1631219
1006:Bibcode
954:Bibcode
927:4464276
899:Bibcode
865:5455024
837:Bibcode
803:4410909
775:Bibcode
750:YouTube
703:Bibcode
695:Science
660:Bibcode
621:Bibcode
537:Science
518:1600103
490:Bibcode
430:Bibcode
422:Science
398:4327928
378:Bibcode
238:at the
194:at the
176:Website
118:Physics
2130:France
2125:Europe
2058:Awards
1588:Growth
1438:Growth
1211:
1203:
1159:
1151:
1133:Nature
1116:
1108:
1072:Nature
1040:
1032:
1024:
980:
972:
946:Nature
925:
917:
881:Nature
863:
855:
801:
793:
767:Nature
729:
721:
678:
565:
557:
516:
508:
482:Nature
458:
450:
396:
370:Nature
345:, 2021
316:, 2006
310:, 1999
302:Awards
210:Career
114:Fields
2152:Japan
2099:IOBCr
1952:SHELX
1947:Olex2
1834:X-ray
1484:Phase
1400:Cubic
1209:S2CID
1157:S2CID
1114:S2CID
1080:arXiv
1038:S2CID
978:S2CID
923:S2CID
889:arXiv
861:S2CID
827:arXiv
799:S2CID
727:S2CID
563:S2CID
514:S2CID
456:S2CID
394:S2CID
218:(now
62:(now
49:China
2094:IUCr
1995:ICDD
1990:ICSD
1975:CCDC
1922:Coot
1917:CCP4
1668:Slip
1631:Kink
1201:PMID
1149:PMID
1106:PMID
1056:link
1030:PMID
1022:OSTI
970:PMID
915:PMID
853:PMID
791:PMID
719:PMID
676:PMID
555:PMID
506:PMID
448:PMID
38:Born
2109:DMG
2104:RAS
2000:PDB
1985:COD
1980:CIF
1932:DSR
1656:GND
1583:CSL
1193:doi
1141:doi
1137:592
1098:doi
1076:592
1014:doi
962:doi
950:570
907:doi
885:542
845:doi
783:doi
771:496
711:doi
699:321
668:doi
629:doi
545:doi
541:353
498:doi
486:483
438:doi
426:348
386:doi
374:400
2205::
2147:US
2140:UK
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