Knowledge

1214:"for studies in superfluid helium of important macroscopic quantum effects on the single quantum level including the detection of single quantized vortex lines, the photography of quantized vortices and the proof of quantization of circulation in 3He, and for his development of weak link arrays in both 3He and 4He and the discoveries of a rich variety of related phenomena including quantum interference." 1204:"for studies of superfluid He weak link arrays revealing a rich variety of phenomena including quantum interference and for the invention and development of spectroscopic imaging STM techniques and their application in studies of individual impurity/dopant atom effects, vortex-core electronic structure, quasiparticle interference effects and alternative ordered states in the cuprate superconductors." 949:"for his important contributions to the theory of thermal and quantum fluctuations at low temperatures, including his work on fluctuations in superconductors, on flux-lattice and charge pinning, on weak localization, and on quantum tunneling, as well as his work on phase transitions in dipolar systems, which pioneered the use of the 804:"for experimental contributions to our fundamental knowledge in bulk liquid helium and in helium films by means of a wide range of highly sophisticated acoustic techniques that were particularly important for understanding the superfluid phase transition of He in two and three dimensions, the superfluid critical velocities and the 1194:"for his work on the surfaces of helium crystals, especially their roughening transitions, their quantum dynamics, and their instability under stress, for his study of cavitation in liquid helium at negative pressure using high amplitude acoustic waves and for his early experiments on quantum evaporation of superfluid He." 777:"for experimental contributions to our fundamental knowledge in liquid He and He. His elegant techniques of high precision with the superfluid gyroscope and torsional oscillator have led to major discoveries and clarifications of superfluid helium in bulk form, in films and in mixtures, specially at phase transitions." 697:" many achievements in advancing the physics of millikelvin temperatures, including his development of improved dilution and Pomeranchuk refrigerators, as well as his fundamental research elucidating the Fermi liquid properties of liquid He, the properties of He-He mixtures, and the recently discovered 1244: 42: 939:"For his seminal theoretical contributions to the physics of superfluidity, of critical phenomena, and of instability in pattern-forming hydrodynamic systems, as well as for his strong positive influence on the direction and interpretation of experimental research in these fields." 787:"for theoretical contributions to our fundamental understanding of normal and superfluid Fermi liquids. His theory of magnetic resonance in the superfluid phases of He provided the key to deciphering their mysteries and an invaluable guide in their subsequent exploration." 739:"for theoretical contributions to the fundamental knowledge of superconductivity, particularly his analysis of electron tunneling data to determine the interactions of electrons and phonons in metals and their relationship to their superconducting transition temperature" 39:(IUPAP) via its Commission on Low Temperature Physics (C5). The mandate of the LT conferences is to promote the exchange of information and views among the members of the international scientific community in the general field of Low Temperature Physics. 994:"for his studies of the helium isotopes at very low temperatures, including his work on sound propagation in single crystals of solid helium, his determination of the millikelvin temperature scale and his pioneering work on two-dimensional He and He." 680:"for his theoretical work in low temperature physics, especially the discovery of type-II superconductivity, and for his work on the theory of superconducting alloys, especially the concept of gapless superconductivity, the theory of 1292:"for his experimental contributions to the understanding of nonequilibrium superconductivity, the properties of superconducting films and junction arrays, Josephson flux qubits, and electron quantum transport in these systems." 852:" elucidation of the subtle effects of fluctuations and disorder on low temperature systems, including his theories of phase transitions in two dimensions and of electron localization and magnetism in disordered materials." 1114:"for his development of techniques needed to study Bose-Einstein condensation in dilute alkali gases, including the clover-leaf Ioffe-Pritchard trap, rf evaporation, optical trapping and non-destructive interrogation using 977:"for his many contributions to theoretical low temperature physics, in particular his studies of non-equilibrium superconductivity, of the effects of disorder in metals and of the quantum mechanics of dissipative systems." 1078: 828:"for pioneering application of low temperatures to prepare new, amorphous phases of metals, and for his study of the superconducting properties of metals modified by disorder, ion implantation and high pressure." 1309:"for theoretical contributions to the understanding of superconductivity in mesoscopic systems, including work on dissipative quantum mechanics of junctions and the proposal of the superconducting charge qubit" 1258: 1227: 76: 1181:"for his contributions to the physics of superconductors, particularly the discovery of gapless collective modes, and for his inventive work on superconductor-insulator transitions in ultrathin films." 904:"for his contributions to the understanding of low temperature quantum phenomena through the creation, development and application of instrumentation based on quantum properties of superconductors." 1135:"for his contribution to low temperature fluid dynamics, in particular for his work on superfluid turbulence and for his use of critical helium gas in the study of thermal convection at record high 873:. Their discovery of superconductivity in the barium lanthanum copper oxides has sparked a worldwide research effort which is making superconductivity a commercially important technology." 1275:"for his original theories and experimental discoveries in liquid helium, concerning phonons, Kapitza resistance, levitation, nucleation, electron bubbles and vortex imaging." 35: 965: 842: 756:"for experimental contributions to the fundamental knowledge of superconductivity, particularly his electron tunneling measurements of the interaction of electrons and 917:"for his broad contributions to low temperature physics, including tunneling studies and theoretical analyses of strong coupling superconductors, the creative use of 1004:"for his experimental investigations of phenomena in quantum liquids and solids, in particular for his research on quantum diffusion and orientational ordering in 1239: 1234:"for the discovery and understanding of unique phenomena in superfluid He-B: macroscopic phase-coherent spin precession and the flow of spin supercurrent." 1104:, the critical velocity under rotation, the effects of motion of the A-B interface and the systematics of nucleation of vorticity by neutron irradiation." 1222: 1144: 982: 792: 744: 709: 2036: 1366: 1253: 1096:"for pioneering use of rotation combined with nuclear magnetic resonance to study various properties of superfluid He, including textures of the 1084: 816: 36: 1297: 894: 1280: 1021:"for his experimental studies of phase transitions in fluids, especially in reduced dimensions, restricted geometries and in presence of 17: 725:(especially his highly innovative and extremely accurate work on helium and on magnetic solids at low temperatures) and of the onset of 1717: 1742:"Proceedings of the 25th International Conference on Low Temperature Physics (LT25) (Amsterdam, The Netherlands, 6–13 August 2008)" 1061: 1413:"for pioneering work on the theoretical investigation of superconductivity in disordered materials and type-II superconductivity" 684:, the application of field-theoretic methods in statistical physics and contributions to the theory of dilute magnetic alloys." 51: 2093: 1724: 925: 866: 1043:"for his successful efforts to get trapped atoms to high enough densities and low enough temperatures to demonstrate 1396: 1074:"for his experimental discoveries in adsorbed helium films, including the reduced transition temperatures and 1948: 1485:"LT25 committees, sponsors and exhibitors, some conference statistics, and a list of previous LT conferences" 1424: 664: 2115: 675: 2078: 1715: 1156:"for his contributions in many areas of low temperature physics, particularly in the elucidation of the 2076: 1044: 518:. It is traditionally awarded in the opening session of the LT meeting. The prize is named in honor of 514: 2033: 621: 1579: 1022: 692: 1863: 1823: 1782: 726: 117: 999: 899: 612: 515: 1691: 1615:"The MIT International Conference on the Physics of Very Low Temperatures, September 6-10, 1949" 878: 1008: 43: 1428: 950: 839: 1928:"30th International Conference on LOW TEMPERATURE PHYSICS – 7-14 August 2025, Bilbao, Spain" 1614: 1346: 526: 1453:"The 25th International Conference on Low Temperature Physics; Report from the Organizers" 1199: 1189: 8: 1880: 1840: 1799: 1758: 1501: 1484: 1469: 1452: 1327: 1130: 734: 629: 32: 2052: 1149: 1119: 987: 805: 782: 722: 618: 169: 104: 1973: 2089: 2015: 1885: 1845: 1804: 1763: 1720: 1673: 1634: 1595: 1591: 1109: 954: 926: 847: 797: 749: 714: 647: 273: 1741: 1361:"for pioneering work on the influence of disorder on the superfluidity of Helium-3" 860: 2081: 2007: 1875: 1835: 1794: 1753: 1665: 1626: 1587: 1496: 1464: 1371: 1356: 1339: 1176: 1089: 1016: 970: 934: 821: 761: 588: 416: 1302: 2040: 1630: 1408: 1323: 1209: 1136: 1097: 1052: 918: 912: 838:"in recognition of his systematic development of cooling techniques that combine 658: 599: 583:"for distinguished research in low temperature physics, for his development with 1390: 1331: 1317: 1270: 1115: 1100:, the structure, pinning and collective behavior of several different types of 1069: 1005: 944: 833: 584: 552: 529: 364: 221: 2085: 2109: 2019: 1889: 1849: 1808: 1767: 1677: 1638: 1599: 1554: 1400: 1285: 922: 565: 1516: 891: 681: 635: 578: 570:"for his outstanding theoretical contributions in low temperature physics” 519: 455: 1904:"29th International Conference on LOW TEMPERATURE PHYSICS ｜ 第29回低温物理学国際会議" 1531:"29th International Conference on LOW TEMPERATURE PHYSICS ｜ 第29回低温物理学国際会議" 604:"for outstanding accomplishment in the field of low temperature physics." 1380: 1038: 312: 247: 772: 698: 468: 2011: 1669: 1530: 557:"for distinguished research in low temperature physics and chemistry" 1418: 885: 429: 403: 325: 1995: 1781: 1653: 634:"for his very precise measurement of the specific heat of He at the 2034: 1058: 1026: 643: 639: 591:, of the first successful microscopic theory of superconductivity" 390: 351: 299: 286: 78: 1952: 1864:"28th International Conference on Low Temperature Physics (LT28)" 1824:"27th International Conference on Low Temperature Physics (LT27)" 1783:"26th International Conference on Low Temperature Physics (LT26)" 1714: 1030: 481: 442: 195: 143: 1029:; as well as for his contributions to the experimental study of 663:"for predicting effects that have provided concrete examples of 1101: 757: 494: 377: 234: 208: 182: 130: 338: 260: 156: 1168: 1122:; and for his pioneering investigations of these systems." 2080:. Springer Science+Business Media, LLC. pp. 663–664. 1322:"for fundamental and pioneering experimental advances in 617:"for his contributions to the growth and development of 1903: 1719:. AIP conference proceedings. Melville, NY: AIP Press. 1927: 1423:"for pioneering work on the experimental discovery of 2053:"Fritz London Memorial Prize | Department of Physics" 760: 1334:with superconducting qubits and microwave photons" 721:"for contributions to the fundamental knowledge of 64: 29: 85:International Low Temperature Physics Conferences 2107: 525:Other prizes awarded in the LT meeting are the 37:International Union of Pure and Applied Physics 1780: 890:"for his explanation of the phenomenon of the 642:, the discovery of the phase separation in He- 533:Recipients of the Fritz London Memorial Prize 1740:Kes, Peter; Jochemsen, Reijer (2009-04-22). 1739: 865:"for their pioneering work in the field of 1993: 638:, of the nuclear susceptibility of liquid 61:C. Quantum Phase Transitions and Magnetism 1879: 1839: 1798: 1757: 1500: 1468: 1821: 1577: 67:E. Cryogenic Techniques and Applications 2075: 14: 2108: 1612: 1395:"for discovery and exploration of the 1868:Journal of Physics: Conference Series 1828:Journal of Physics: Conference Series 1787:Journal of Physics: Conference Series 1651: 1996:"Introducing the Fritz London Award" 1746:Journal of Physics: Condensed Matter 1578:Donnelly, Russell J. (1994-02-02). 1450: 1057:"For his method of getting trapped 55:A. Quantum Gases, Fluids and Solids 24: 25: 2127: 1580:"LT-20 Proceedings: Introduction" 1994:Brickwedde, F. G. (1958-03-01). 1822:Calzetta, Esteban (2014-12-08). 1397:unconventional superconductivity 1160:-wave pairing state of the high 2069: 2045: 2026: 1987: 1966: 1941: 1920: 1896: 1856: 1815: 1774: 1733: 1708: 1881:10.1088/1742-6596/969/1/011002 1841:10.1088/1742-6596/568/1/001001 1800:10.1088/1742-6596/400/0/001001 1759:10.1088/0953-8984/21/16/160301 1684: 1645: 1613:Slater, John C. (1949-11-04). 1606: 1571: 1547: 1523: 1509: 1502:10.1088/1742-6596/150/0/001004 1477: 1470:10.1088/1742-6596/150/0/001002 1444: 1047:of weakly interacting atoms." 13: 1: 1974:"Fritz London Memorial Prize" 1437: 1427:and edge channel in magnetic 1425:quantum anomalous Hall effect 929:in two-dimensional systems." 665:macroscopic quantum phenomena 1631:10.1126/science.110.2862.465 1592:10.1016/0921-4526(94)90326-3 7: 1584:Physica B: Condensed Matter 512:Fritz London Memorial Prize 71: 18:Fritz London Memorial Prize 10: 2132: 1045:Bose-Einstein condensation 727:hydrodynamic instabilities 2086:10.1007/978-1-4899-6443-4 1654:"Low temperature physics" 1386: 1360: 1352: 1321: 1313: 1266: 1233: 1218: 1185: 1126: 1065: 1012: 961: 908: 864: 856: 812: 768: 705: 505: 46: 1692:"IUPAP: C5: Report 2002" 1652:Yaqub, M. (1965-01-01). 118:Cambridge, Massachusetts 2032:for the full list, see 1951:. IUPAP. Archived from 516:Low Temperature Physics 1874:: 011002. 2018-04-19. 1429:topological insulators 879:Johannes Georg Bednorz 840:dilution refrigeration 1586:. 194–196: vii–viii. 951:renormalization group 871:oxide superconductors 650:in superconductors." 1347:Robert J. Schoelkopf 1240:Vladimir V. Dmitriev 646:mixtures and of the 527:Simon Memorial Prize 58:B. Superconductivity 2116:Physics conferences 1489:J. Phys.: Conf. Ser 1457:J. Phys.: Conf. Ser 1451:Kes, Peter (2009). 1328:quantum information 1131:Russell J. Donnelly 953:for calculation of 935:Pierre C. Hohenberg 806:persistent currents 735:William L. McMillan 630:William M. Fairbank 534: 86: 33:academic conference 2039:2016-12-20 at the 1120:dark-field imaging 955:critical exponents 892:resistance minimum 783:Anthony J. Leggett 723:critical phenomena 619:magnetic resonance 613:Cornelis J. Gorter 532: 170:Madison, Wisconsin 105:Cambridge, England 84: 2095:978-1-4899-6217-1 2012:10.1063/1.3062445 1726:978-0-7354-0347-5 1696:archive.iupap.org 1670:10.1063/1.3047155 1625:(2862): 465–467. 1435: 1434: 1200:J.C. Séamus Davis 1190:Sébastien Balibar 1110:Wolfgang Ketterle 1070:Douglas F. Brewer 927:weak localization 848:David J. Thouless 648:flux quantization 503: 502: 274:Boulder, Colorado 16:(Redirected from 2123: 2100: 2099: 2073: 2067: 2066: 2064: 2063: 2057:physics.duke.edu 2049: 2043: 2030: 2024: 2023: 1991: 1985: 1984: 1982: 1981: 1970: 1964: 1963: 1961: 1960: 1945: 1939: 1938: 1936: 1935: 1924: 1918: 1917: 1915: 1914: 1900: 1894: 1893: 1883: 1860: 1854: 1853: 1843: 1819: 1813: 1812: 1802: 1778: 1772: 1771: 1761: 1737: 1731: 1730: 1712: 1706: 1705: 1703: 1702: 1688: 1682: 1681: 1649: 1643: 1642: 1610: 1604: 1603: 1575: 1569: 1568: 1566: 1565: 1555:"LT Conferences" 1551: 1545: 1544: 1542: 1541: 1527: 1521: 1520: 1513: 1507: 1506: 1504: 1495:: 001004. 2009. 1481: 1475: 1474: 1472: 1448: 1375: 1357:William Halperin 1340:John M. Martinis 1306: 1289: 1262: 1248: 1231: 1177:Allen M. Goldman 1153: 1137:Rayleigh numbers 1093: 1017:Moses H. W. Chan 991: 974: 919:tunnel junctions 825: 801: 762:Josephson effect 753: 718: 676:Alexei Abrikosov 589:J. R. 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Dynes 870: 819: 795: 747: 712: 701:phases of He.” 659:Brian Josephson 600:David Shoenberg 508: 74: 49: 23: 22: 15: 12: 11: 5: 2129: 2119: 2118: 2102: 2101: 2094: 2068: 2044: 2025: 1986: 1976:. 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Alex Müller 858: 854: 853: 850: 844: 843: 836: 834:Olli Lounasmaa 830: 829: 826: 814: 810: 809: 802: 793:Isidor Rudnick 789: 788: 785: 779: 778: 775: 770: 766: 765: 754: 745:John M. Rowell 741: 740: 737: 731: 730: 719: 710:Guenter Ahlers 707: 703: 702: 695: 690: 686: 685: 678: 673: 669: 668: 661: 656: 652: 651: 632: 627: 623: 622: 615: 610: 606: 605: 602: 597: 593: 592: 585:Leon N. Cooper 581: 576: 572: 571: 568: 563: 559: 558: 555: 553:Nicholas Kurti 550: 546: 545: 542: 539: 507: 504: 501: 500: 497: 492: 488: 487: 484: 479: 475: 474: 471: 466: 462: 461: 458: 453: 449: 448: 445: 440: 436: 435: 432: 427: 423: 422: 419: 414: 410: 409: 406: 401: 397: 396: 393: 388: 384: 383: 380: 375: 371: 370: 367: 365:Eugene, Oregon 362: 358: 357: 354: 349: 345: 344: 341: 336: 332: 331: 328: 323: 319: 318: 315: 310: 306: 305: 302: 297: 293: 292: 289: 284: 280: 279: 276: 271: 267: 266: 263: 258: 254: 253: 250: 245: 241: 240: 237: 232: 228: 227: 224: 222:Columbus, Ohio 219: 215: 214: 211: 206: 202: 201: 198: 193: 189: 188: 185: 180: 176: 175: 172: 167: 163: 162: 159: 154: 150: 149: 146: 141: 137: 136: 133: 128: 124: 123: 120: 115: 111: 110: 107: 102: 98: 97: 94: 91: 73: 70: 69: 68: 65: 62: 59: 56: 48: 45: 9: 6: 4: 3: 2: 2128: 2117: 2114: 2113: 2111: 2097: 2091: 2087: 2083: 2079: 2072: 2058: 2054: 2048: 2042: 2038: 2035: 2029: 2021: 2017: 2013: 2009: 2005: 2001: 2000:Physics Today 1997: 1990: 1975: 1969: 1955:on 2012-01-06 1954: 1950: 1944: 1929: 1923: 1909: 1905: 1899: 1891: 1887: 1882: 1877: 1873: 1869: 1865: 1859: 1851: 1847: 1842: 1837: 1833: 1829: 1825: 1818: 1810: 1806: 1801: 1796: 1792: 1788: 1784: 1777: 1769: 1765: 1760: 1755: 1751: 1747: 1743: 1736: 1728: 1722: 1718: 1711: 1697: 1693: 1687: 1679: 1675: 1671: 1667: 1663: 1659: 1658:Physics Today 1655: 1648: 1640: 1636: 1632: 1628: 1624: 1620: 1616: 1609: 1601: 1597: 1593: 1589: 1585: 1581: 1574: 1560: 1556: 1550: 1536: 1532: 1526: 1518: 1512: 1503: 1498: 1494: 1490: 1486: 1480: 1471: 1466: 1462: 1458: 1454: 1447: 1443: 1430: 1426: 1422: 1420: 1417: 1416: 1412: 1410: 1407: 1406: 1402: 1401:heavy fermion 1398: 1394: 1392: 1389: 1385: 1382: 1379: 1378: 1373: 1368: 1367:Jeevak Parpia 1365: 1364: 1358: 1355: 1351: 1348: 1345: 1344: 1341: 1338: 1337: 1333: 1329: 1325: 1319: 1316: 1312: 1308: 1304: 1299: 1296: 1295: 1291: 1287: 1282: 1279: 1278: 1274: 1272: 1269: 1265: 1260: 1255: 1254:Igor A. Fomin 1252: 1251: 1246: 1241: 1238: 1237: 1229: 1224: 1221: 1217: 1213: 1211: 1208: 1207: 1203: 1201: 1198: 1197: 1193: 1191: 1188: 1184: 1180: 1178: 1175: 1174: 1170: 1163: 1159: 1155: 1151: 1146: 1143: 1142: 1138: 1134: 1132: 1129: 1125: 1121: 1117: 1113: 1111: 1108: 1107: 1103: 1099: 1095: 1091: 1086: 1085:Matti Krusius 1083: 1082: 1077: 1073: 1071: 1068: 1064: 1060: 1056: 1054: 1051: 1050: 1046: 1042: 1040: 1037: 1036: 1032: 1028: 1024: 1020: 1018: 1015: 1011: 1007: 1003: 1001: 998: 997: 993: 989: 984: 981: 980: 976: 972: 967: 966:Albert Schmid 964: 960: 956: 952: 948: 946: 943: 942: 938: 936: 933: 932: 928: 924: 923:quasiparticle 920: 916: 914: 911: 907: 903: 901: 898: 897: 893: 889: 887: 884: 883: 880: 877: 876: 872: 862: 859: 855: 851: 849: 846: 845: 841: 837: 835: 832: 831: 827: 823: 818: 817:Werner Buckel 815: 811: 807: 803: 799: 794: 791: 790: 786: 784: 781: 780: 776: 774: 771: 767: 763: 759: 755: 751: 746: 743: 742: 738: 736: 733: 732: 728: 724: 720: 716: 711: 708: 704: 700: 696: 694: 693:John Wheatley 691: 688: 687: 683: 682:Fermi liquids 679: 677: 674: 671: 670: 666: 662: 660: 657: 654: 653: 649: 645: 641: 637: 633: 631: 628: 625: 624: 620: 616: 614: 611: 608: 607: 603: 601: 598: 595: 594: 590: 586: 582: 580: 577: 574: 573: 569: 567: 566:Lev D. 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