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James P. Eisenstein

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James P. Eisenstein
Born (1952-05-15) May 15, 1952 (age 72)
St. Louis, Missouri
NationalityAmerican
Alma materOberlin College
University of California, Berkeley
Known forFractional Quantum Hall effect
Exciton condensation
AwardsOliver E. Buckley Condensed Matter Prize (2007)
Scientific career
FieldsPhysics
InstitutionsBell Laboratories
California Institute of Technology


James P. Eisenstein is an American physicist noted for his experimental research on strongly interacting two-dimensional electron systems. He is currently the Frank J. Roshek Professor of Physics and Applied Physics, Emeritus, at the California Institute of Technology.

Academic career

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Eisenstein received his AB degree from Oberlin College in 1974 and a PhD in physics from the University of California, Berkeley in 1980. Following a few years as an assistant professor of physics at Williams College, Eisenstein became a member of the technical staff at Bell Laboratories at Murray Hill, New Jersey in 1983. In 1996 Eisenstein accepted a professorship in physics at the California Institute of Technology in Pasadena, California. In 2005 he became the Frank J. Roshek Professor of Physics and Applied Physics at Caltech. Eisenstein assumed emeritus status in 2018 and suspended his experimental research program in 2021.

He has served on various National Research Council committees including the Solid State Sciences Committee and the Board on Physics and Astronomy. He was an associate editor of the Annual Review of Condensed Matter Physics from 2014 to 2017.


Research

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Following doctoral research on the hydrodynamic properties of superfluid 3-He, at Bell Labs Eisenstein switched his focus to the experimental properties of two-dimensional electron systems in semiconductor heterostructures. At very low temperatures and high magnetic fields, such systems exhibit a host of exotic phenomena, notably the integer and fractional quantum Hall effects.

Among Eisenstein's most significant research contributions is the discovery of the first "even denominator" fractional quantized Hall state, the first observation of "stripe" and "bubble" 2D quantum electronic phases, and the first detection of the long-sought phenomenon of excitonic Bose condensation.

The even-denominator fractional quantum Hall state, at filling v=5/2, is believed to possess quasiparticles with non-abelian braiding statistics[1], a property key to proposed topological quantum computer architectures[2].

The stripe and bubble phases[3] [4] reveal that in the quantum regime point-like electrons can organize themselves into configurations[5] which resemble classical liquid crystals comprising complex asymmetric molecules.

Exciton condensation was originally theorized, in the 1960's, to occur in bulk semimetals in the absence of a magnetic field[6] [7] [8] Surprisingly, the phenomenon was first detected in closely-spaced double layer 2D electron systems at high magnetic field. In effect, at low temperature electrons in one layer can bind onto the vacancies between electrons in the other layer. The condensed phase has numerous exotic properties[9].


Awards and Honors

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  • 2007 Oliver E. Buckley Prize of the American Physical Society. Citation reads "for fundamental experimental and theoretical research on correlated many-electron states in low dimensional systems."
  • 2005 Election to the U.S. National Academy of Sciences
  • 2003 Morris Loeb Lecturer, Harvard University
  • 1993 Distinguished Member of the Technical Staff, Bell Laboratories
  • 1992 Fellow of the American Physical Society

Publications

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  • Willett, R.; Eisenstein, J. P.; Störmer, H. L.; Tsui, D. C.; Gossard, A. C.; English, J. H. (1987-10-12). "Observation of an even-denominator quantum number in the fractional quantum Hall effect" (PDF). Physical Review Letters. 59 (15). American Physical Society (APS): 1776–1779. Bibcode:1987PhRvL..59.1776W. doi:10.1103/physrevlett.59.1776. ISSN 0031-9007. PMID 10035326.


References

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  1. ^ Moore, Gregory; Read, Nicholas (1991). "Nonabelions in the fractional quantum hall effect". Nuclear Physics B. 360 (2–3): 362. Bibcode:1991NuPhB.360..362M. doi:10.1016/0550-3213(91)90407-O.
  2. ^ Kitaev, A. Yu. (1997). "Fault-tolerant quantum computation by anyons". Annals of Physics. 303: 2–30. arXiv:quant-ph/9707021. doi:10.1016/S0003-4916(02)00018-0.
  3. ^ Koulakov, A.A.; Fogler, M.M.; Shklovskii, B.I. (1996). "The Ground State of a Two-Dimensional Electron Liquid in a Weak Magnetic Field". Physical Review B. 54: 1853–1871. arXiv:cond-mat/9601110. doi:10.1103/PhysRevB.54.1853.
  4. ^ Moessner, R.; Chalker, J.T. (1996). "Exact results for interacting electrons in high Landau levels". Physical Review B. 54: 5006–5015. arXiv:cond-mat/9606177. doi:10.1103/PhysRevB.54.5006.
  5. ^ Fradkin, Eduardo; Kivelson, Steven A.; Lawler, Michael J.; Eisenstein, James P.; Mackenzie, Andrew P. (2010). "Nematic Fermi Fluids in Condensed Matter Physics". Annual Reviews of Condensed Matter Physics. 1: 153. arXiv:0910.4166. doi:10.1146/annurev-conmatphys-070909-103925.
  6. ^ Blatt, John M.; Boer, K.W.; Brandt, Werner (1962). "Bose-Einstein Condensation of Excitons". Physical Review. 126: 1691–1692. doi:10.1103/PhysRev.126.1691.
  7. ^ Keldysh, L.V.; Kopaev, Yu.V. (1964). "Possible instability of the semimetallic state toward Coulomb interaction". Soviet Physics Solid State. 6: 2791. doi:10.1142/9789811279461_0006.
  8. ^ Jerome, D.; Rice, T.M.; Kohn, Walter (1967). "Excitonic Insulator". Physical Review. 158: 462. doi:10.1103/PhysRev.158.462.
  9. ^ Eisenstein, J. P. (2014). "Exciton Condensation in Bilayer Quantum Hall Systems". Annu. Rev. Condens. Matter Phys. 5. Annual Reviews: 159–181. arXiv:1306.0584. doi:10.1146/annurev-conmatphys-031113-133832.
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