Knowledge

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: 995: 878: 816: 1069: 1174: 764: 286: 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: 940: 1582: 230: 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: 1240: 2103: 1828: 235: 1994: 1286: 646: 611: 2093: 2085: 2146: 2124: 195: 146: 2139: 1989: 1655: 1520: 1369: 239: 135: 2129: 2027: 1723: 1376: 2151: 2009: 1979: 1908: 252: 476: 2186: 1861: 223: 191: 2134: 2057: 1931: 1530: 1969: 1891: 256: 1984: 1974: 1279: 206:(AET), enabling the first determination of 3D atomic structures without assuming crystallinity or averaging. 2213: 2108: 1756: 1381: 1359: 268: 260: 199: 91: 2208: 1660: 1414: 1309: 291: 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: 2174: 1898: 1794: 1667: 1630: 1545: 1424: 1404: 1272: 329: 280: 2022: 1866: 1811: 1560: 1525: 1226: 2218: 1776: 1718: 1535: 323: 231: 78: 647: 2075: 1871: 1833: 1640: 1592: 1049: 272: 2228: 1799: 1672: 1508: 1399: 1184: 1089: 1005: 953: 898: 836: 774: 702: 659: 620: 489: 429: 377: 8: 1816: 1804: 1679: 1645: 1625: 276: 219: 215: 203: 139: 95: 63: 59: 1188: 1093: 1009: 957: 902: 840: 778: 706: 663: 624: 493: 433: 381: 2065: 1876: 1821: 1364: 1208: 1156: 1113: 1079: 1037: 977: 922: 888: 860: 826: 798: 726: 562: 513: 455: 393: 1999: 1838: 1766: 1746: 1466: 1336: 1212: 1200: 1160: 1148: 1117: 1105: 1041: 1029: 1021: 981: 969: 914: 852: 790: 718: 675: 583: 554: 505: 459: 447: 121: 730: 566: 2037: 1843: 1761: 1751: 1550: 1483: 1454: 1447: 1192: 1140: 1097: 1013: 961: 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: 165: 125: 1025: 1344: 848: 30: 1941: 1711: 1459: 1084: 893: 831: 44: 1264: 389: 190: 1951: 1131: 749: 117: 416: 597: 1946: 332: 48: 533:"Atomic electron tomography: 3D structures without crystals" 298: 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: 1820: 1818: 1815: 1814: 1813: 1810: 1806: 1803: 1801: 1798: 1797: 1796: 1793: 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: 1644: 1642: 1639: 1637: 1634: 1632: 1629: 1627: 1624: 1622: 1619: 1618: 1617: 1614: 1612: 1609: 1607: 1604: 1603: 1594: 1591: 1589: 1586: 1584: 1581: 1579: 1576: 1575: 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: 1446: 1444: 1441: 1440: 1439: 1436: 1435: 1426: 1423: 1421: 1418: 1416: 1413: 1411: 1408: 1406: 1403: 1401: 1398: 1397: 1395: 1393: 1389: 1383: 1380: 1378: 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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: 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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 1207:. 1199:. 1191:. 1181:21 1179:. 1155:. 1147:. 1135:. 1112:. 1104:. 1096:. 1088:. 1074:. 1052:}} 1048:{{ 1036:. 1028:. 1020:. 1012:. 1002:19 1000:. 976:. 968:. 960:. 948:. 944:. 921:. 913:. 905:. 897:. 883:. 859:. 851:. 843:. 835:. 823:14 821:. 797:. 789:. 781:. 769:. 747:. 725:. 717:. 709:. 697:. 674:. 666:. 656:98 654:. 650:. 627:. 617:15 615:. 575:^ 561:. 553:. 539:. 535:. 512:. 504:. 496:. 484:. 480:. 468:^ 454:. 446:. 436:. 424:. 420:. 406:^ 392:. 384:. 372:. 358:^ 279:, 275:, 263:, 255:, 226:, 164:, 138:, 124:, 120:, 66:) 47:, 1288:e 1281:t 1274:v 1257:. 1243:. 1229:. 1215:. 1195:: 1187:: 1163:. 1143:: 1120:. 1100:: 1092:: 1082:: 1058:) 1044:. 1016:: 1008:: 984:. 964:: 956:: 929:. 909:: 901:: 891:: 867:. 847:: 839:: 829:: 805:. 785:: 777:: 753:. 733:. 713:: 705:: 682:. 670:: 662:: 635:. 631:: 623:: 600:. 586:. 569:. 547:: 520:. 500:: 492:: 462:. 440:: 432:: 400:. 388:: 380::