International Conference on Low Temperature Physics
The International Conference on Low Temperature Physics (LT) is an academic conference held every three years near the month of September attracting on average well over a thousand participants from all over the world.[1][2] The LT conferences are endorsed by the International Union of Pure and Applied Physics (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.
Usually, several other satellite meetings are also held just before or after the LT conferences in neighboring cities such as the International Conference on Ultra Low Temperature Physics series (ULT) as well as other meetings related to the topics listed below. Starting from 1998, the Symposium on Quantum Fluids and Solids (QFT) conference series was decided to be held in all non-LT years.[3]
Topics
[edit]The general field of low temperature physics is broad, but usually the LT conferences are divided into five parallel programs:
- A. Quantum Gases, Fluids and Solids
- B. Superconductivity
- C. Quantum Phase Transitions and Magnetism
- D. Electronic Quantum Transport in Condensed Matter
- E. Cryogenic Techniques and Applications
Editions
[edit]The conferences are typically held in the following pattern: Europe > Asia > The Americas > Europe. The LT29 Conference was originally planned to be held in 2020, but was postponed two years due to COVID-19.[4]
LT | Location | Year |
---|---|---|
0 | Cambridge, England[6] | 1946 |
1 | Cambridge, Massachusetts[7] | 1949 |
2 | Oxford | 1951 |
3 | Houston | 1953 |
4 | Paris | 1955 |
5 | Madison, Wisconsin | 1957 |
6 | Leiden | 1958 |
7 | Toronto | 1960 |
8 | London | 1962 |
9 | Columbus, Ohio[8] | 1964 |
10 | Moscow | 1966 |
11 | St. Andrews | 1968 |
12 | Kyoto | 1970 |
13 | Boulder, Colorado | 1972 |
14 | Otaniemi | 1975 |
15 | Grenoble | 1978 |
16 | Los Angeles | 1981 |
17 | Karlsruhe | 1984 |
18 | Kyoto | 1987 |
19 | Brighton | 1990 |
20 | Eugene, Oregon | 1993 |
21 | Prague | 1996 |
22 | Otaniemi | 1999 |
23 | Hiroshima[9] | 2002 |
24 | Orlando[10] | 2005 |
25 | Amsterdam[11] | 2008 |
26 | Beijing[12] | 2011 |
27 | Buenos Aires[13] | 2014 |
28 | Gothenburg[14] | 2017 |
29 | Sapporo[15] | 2022 |
30 | Bilbao[16] | 2025 |
Prizes
[edit]The Fritz London Memorial Prize was created to recognize scientists who made outstanding contributions to the advances of the field of Low Temperature Physics. It is traditionally awarded in the opening session of the LT meeting.[17] The prize is named in honor of Fritz London.[18][19]
Other prizes awarded in the LT meeting are the Simon Memorial Prize[20] and the IUPAP Young Scientist Prizes in Low Temperature Physics (since LT-25).
Year | Recipient | Citation |
---|---|---|
1957 | Nicholas Kurti | "for distinguished research in low temperature physics and chemistry" |
1960 | Lev D. Landau | "for his outstanding theoretical contributions in low temperature physics” |
1962 | John Bardeen | "for distinguished research in low temperature physics, for his development with Leon N. Cooper and J. R. Schrieffer, of the first successful microscopic theory of superconductivity" |
1964 | David Shoenberg | "for outstanding accomplishment in the field of low temperature physics."[22] |
1966 | Cornelis J. Gorter | "for his contributions to the growth and development of magnetic resonance in electronic and nuclear systems and to the education and research work in low temperature physics." |
1968 | William M. Fairbank | "for his very precise measurement of the specific heat of 4He at the lambda point, of the nuclear susceptibility of liquid 3He, the discovery of the phase separation in 3He-4He mixtures and of the flux quantization in superconductors." |
1970 | Brian Josephson | "for predicting effects that have provided concrete examples of macroscopic quantum phenomena." |
1972 | Alexei Abrikosov | "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 Fermi liquids, the application of field-theoretic methods in statistical physics and contributions to the theory of dilute magnetic alloys." |
1975 | John Wheatley | "[for] 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 3He, the properties of 3He-4He mixtures, and the recently discovered superfluid phases of 3He.” |
1978 | Guenter Ahlers | "for contributions to the fundamental knowledge of critical phenomena (especially his highly innovative and extremely accurate work on helium and on magnetic solids at low temperatures) and of the onset of hydrodynamic instabilities." |
William L. McMillan | "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" | |
John M. Rowell | "for experimental contributions to the fundamental knowledge of superconductivity, particularly his electron tunneling measurements of the interaction of electrons and phonons in metals, and for his experimental discovery of the Josephson effect" | |
1981 | John Reppy | "for experimental contributions to our fundamental knowledge in liquid 3He and 4He. 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." |
Anthony J. Leggett | "for theoretical contributions to our fundamental understanding of normal and superfluid Fermi liquids. His theory of magnetic resonance in the superfluid phases of 3He provided the key to deciphering their mysteries and an invaluable guide in their subsequent exploration." | |
Isidor Rudnick | "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 4He in two and three dimensions, the superfluid critical velocities and the persistent currents." | |
1984 | Werner Buckel | "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." |
Olli Lounasmaa | "in recognition of his systematic development of cooling techniques that combine dilution refrigeration with nuclear demagnetization, and for their application to the production of nuclear ordered metallic copper and to the discovery of new properties of superfluid 3He." | |
David J. Thouless | "[for] 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." | |
1987 | K. Alex Müller | "for their pioneering work in the field of high-Tc oxide superconductors. Their discovery of superconductivity in the barium lanthanum copper oxides has sparked a worldwide research effort which is making superconductivity a commercially important technology." |
Johannes Georg Bednorz | ||
Jun Kondo | "for his explanation of the phenomenon of the resistance minimum in metallic systems with magnetic impurities, revealing a subtlety in the behavior of interacting Fermi systems not suspected previously." | |
John Clarke | "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." | |
1990 | Robert C. Dynes | "for his broad contributions to low temperature physics, including tunneling studies and theoretical analyses of strong coupling superconductors, the creative use of tunnel junctions to measure quasiparticle lifetime effects in superconductors and to study phonon propagation in solids and liquid helium, and the observation of weak localization in two-dimensional systems." |
Pierre C. Hohenberg | "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." | |
Anatoly Larkin | "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 renormalization group for calculation of critical exponents." | |
1993 | Albert Schmid | "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." |
Dennis Greywall | "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 3He and 4He." | |
Horst Meyer | "for his experimental investigations of phenomena in quantum liquids and solids, in particular for his research on quantum diffusion and orientational ordering in solid hydrogen and for his comprehensive and pioneering work on the critical properties of helium mixtures." | |
1996 | Moses H. W. Chan | "for his experimental studies of phase transitions in fluids, especially in reduced dimensions, restricted geometries and in presence of disorder and impurities; as well as for his contributions to the experimental study of wetting." |
Carl Wieman | "for his successful efforts to get trapped atoms to high enough densities and low enough temperatures to demonstrate Bose-Einstein condensation of weakly interacting atoms." | |
Eric A. Cornell | "For his method of getting trapped rubidium atoms to high enough densities and low enough temperatures to demonstrate Bose-Einstein condensation of weakly interacting atoms." | |
1999 | Douglas F. Brewer | "for his experimental discoveries in adsorbed helium films, including the reduced transition temperatures and T2 specific heat; and for his finding of the linear temperature dependence of the specific heat of 3He; the surface-enhanced nuclear susceptibility of liquid 3He and his verification of the minimum in the 3He melting curve." |
Matti Krusius | "for pioneering use of rotation combined with nuclear magnetic resonance to study various properties of superfluid 3He, including textures of the order parameter, the structure, pinning and collective behavior of several different types of vortex, the critical velocity under rotation, the effects of motion of the A-B interface and the systematics of nucleation of vorticity by neutron irradiation." | |
Wolfgang Ketterle | "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 phase contrast and dark-field imaging; and for his pioneering investigations of these systems." | |
2002 | Russell J. Donnelly | "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 Rayleigh numbers." |
Walter N. Hardy | "for his contributions in many areas of low temperature physics, particularly in the elucidation of the d-wave pairing state of the high Tc superconductor YBCO. | |
Allen M. Goldman | "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." | |
2005 | Sébastien Balibar | "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 4He." |
J.C. Séamus Davis | "for studies of superfluid 3He 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." | |
Richard Packard | "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." | |
2008 | Yuriy M. Bunkov | "for the discovery and understanding of unique phenomena in superfluid 3He-B: macroscopic phase-coherent spin precession and the flow of spin supercurrent." |
Vladimir V. Dmitriev | ||
Igor A. Fomin | ||
2011 | Humphrey Maris | "for his original theories and experimental discoveries in liquid helium, concerning phonons, Kapitza resistance, levitation, nucleation, electron bubbles and vortex imaging." |
Hans Mooij | "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." | |
Gerd Schön | "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" | |
2014 | Michel Devoret | "for fundamental and pioneering experimental advances in quantum control, quantum information processing and quantum optics with superconducting qubits and microwave photons" |
John M. Martinis | ||
Robert J. Schoelkopf | ||
2017 | William Halperin | "for pioneering work on the influence of disorder on the superfluidity of Helium-3" |
Jeevak Parpia | ||
James Sauls | ||
2020 | Frank Steglich | "for discovery and exploration of the unconventional superconductivity in heavy fermion metals" |
Valerii Vinokur | "for pioneering work on the theoretical investigation of superconductivity in disordered materials and type-II superconductivity" | |
Qi-Kun Xue | "for pioneering work on the experimental discovery of quantum anomalous Hall effect and edge channel in magnetic topological insulators." |
References
[edit]- ^ Kes, Peter (2009). "The 25th International Conference on Low Temperature Physics; Report from the Organizers". J. Phys.: Conf. Ser. 150: 001002. doi:10.1088/1742-6596/150/0/001002.
- ^ "LT25 committees, sponsors and exhibitors, some conference statistics, and a list of previous LT conferences". J. Phys.: Conf. Ser. 150: 001004. 2009. doi:10.1088/1742-6596/150/0/001004.
- ^ "QFS98".
- ^ "29th International Conference on LOW TEMPERATURE PHYSICS | 第29回低温物理学国際会議". www.lt29.jp. Retrieved 2023-10-14.
- ^ "LT Conferences". ltl.tkk.fi. Retrieved 2023-10-12.
- ^ Donnelly, Russell J. (1994-02-02). "LT-20 Proceedings: Introduction". Physica B: Condensed Matter. 194–196: vii–viii. doi:10.1016/0921-4526(94)90326-3. ISSN 0921-4526.
- ^ Slater, John C. (1949-11-04). "The MIT International Conference on the Physics of Very Low Temperatures, September 6-10, 1949". Science. 110 (2862): 465–467. doi:10.1126/science.110.2862.465. ISSN 0036-8075.
- ^ Yaqub, M. (1965-01-01). "Low temperature physics". Physics Today. 18 (1): 56–64. doi:10.1063/1.3047155. ISSN 0031-9228.
- ^ "IUPAP: C5: Report 2002". archive.iupap.org. Retrieved 2023-10-14.
- ^ Takano, Yasu; Hershfield, S. P.; Hirschfeld, P. J.; Goldman, A. M.; University of Florida, eds. (2006). Low temperature physics: 24th International Conference on Low Temperature Physics, LT 24, Orlando, Florida, 10 - 17 August 2005. Pt. B. AIP conference proceedings. Melville, NY: AIP Press. ISBN 978-0-7354-0347-5.
- ^ Kes, Peter; Jochemsen, Reijer (2009-04-22). "Proceedings of the 25th International Conference on Low Temperature Physics (LT25) (Amsterdam, The Netherlands, 6–13 August 2008)". Journal of Physics: Condensed Matter. 21 (16): 160301. doi:10.1088/0953-8984/21/16/160301. ISSN 0953-8984.
- ^ Liu, W M; Wang, N L; Xiang, T; Lu, L; He, Y S; Luo, J (2012-12-17). "26th International Conference on Low Temperature Physics (LT26)". Journal of Physics: Conference Series. 400 (00): 001001. doi:10.1088/1742-6596/400/0/001001. ISSN 1742-6588.
- ^ Calzetta, Esteban (2014-12-08). "27th International Conference on Low Temperature Physics (LT27)". Journal of Physics: Conference Series. 568 (00): 001001. doi:10.1088/1742-6596/568/1/001001. ISSN 1742-6588.
- ^ "28th International Conference on Low Temperature Physics (LT28)". Journal of Physics: Conference Series. 969: 011002. 2018-04-19. doi:10.1088/1742-6596/969/1/011002. ISSN 1742-6588.
- ^ "29th International Conference on LOW TEMPERATURE PHYSICS | 第29回低温物理学国際会議". www.lt29.jp. Retrieved 2023-10-14.
- ^ "30th International Conference on LOW TEMPERATURE PHYSICS – 7-14 August 2025, Bilbao, Spain" (in Spanish). Retrieved 2023-10-14.
- ^ "About". IUPAP. Archived from the original on 2012-01-06. Retrieved 2012-01-05.
- ^ "Fritz London Memorial Prize". Phy.duke.edu. Retrieved 2014-04-15.
- ^ Brickwedde, F. G. (1958-03-01). "Introducing the Fritz London Award". Physics Today. 11 (3): 16–17. doi:10.1063/1.3062445. ISSN 0031-9228.
- ^ for the full list, see http://www.iop.org/activity/groups/subject/lt/prize/page_44359.html
- ^ "Fritz London Memorial Prize | Department of Physics". physics.duke.edu. Retrieved 2023-10-10.
- ^ Roberts L (1965). "Presentation Address for the Fourth London Award". In Daunt JG, et al. (eds.). Low Temperature Physics LT9: Proceedings of the IXth International Conference on Low Temperature Physics. Springer Science+Business Media, LLC. pp. 663–664. doi:10.1007/978-1-4899-6443-4. ISBN 978-1-4899-6217-1.