Jeremy Levy Explained

Jeremy Levy
Birth Date:18 May 1965
Birth Place:New York City, New York, U.S.
Website:Jeremy Levy's Lab
Jeremy Levy's Google Scholar Page
Children:2
Field:Condensed Matter Physics
Work Institution:University of Pittsburgh
University of California Santa Barbara
Harvard University
Doctoral Advisor:Mark Sherwin

Jeremy Levy (born May 18, 1965) is an American physicist who is a Distinguished Professor of Physics at the University of Pittsburgh.[1]

Education and career

Levy received his B.A. degree from Harvard University (1988), and his Ph.D. in physics from University of California, Santa Barbara (1993) under the supervision of Mark Sherwin. After his Ph.D., he was a postdoctoral researcher at the University of California, Santa Barbara with David Awschalom. He started his independent academic career as an assistant professor in physics in 1996 and currently distinguished professor of physics in the department of physics and astronomy at the University of Pittsburgh. He also holds an Adjunct Faculty position in both physics and electrical and computer engineering departments at Carnegie Mellon University.

Early acting career

Levy also worked as a film and television actor from age 11 to 12. He acted in NBC's Holocaust, and played the role of Aaron Feldman. He also had a lead role in the feature film Rich Kids, playing the role of Jamie Harris.

Other professional activities

Apart from his research, Levy served for a decade as founding director of the Pittsburgh Quantum Institute (PQI) from 2012-2022, whose mission is “to help unify and promote quantum science and engineering in Pittsburgh.” PQI has over 100 Faculty members in multiple departments at the University of Pittsburgh, Carnegie Mellon University, and Duquesne University.

Areas of research

Levy's research interests center around the emerging field of oxide nanoelectronics, experimental and theoretical realizations for quantum computation, semiconductor and oxide spintronics, quantum transport and nanoscale optics, and dynamical phenomena in oxide materials and films. Levy’s early Ph.D. research focused on the nonlinear dynamical properties of sliding charge-density waves.[2] His postdoctoral research investigated the properties of dilute magnetic semiconductor heterostructures, where he developed a low-temperature near-field scanning optical microscope and used it to investigate Mn-doped ZnSe/(Zn,Cd)Se heterostructure and superlattices as well as self-assembled quantum dots.

After moving to the University of Pittsburgh, Levy began a research program centered around high-resolution imaging of the spatial and temporal dynamics of ferroelectric thin films. In 1999, Levy worked toward an experimental realization of a quantum computer based on ferroelectrically coupled Ge/Si quantum dots.[3] Levy was funded through the DARPA QuIST program that supported the Center for Oxide-Semiconductor Materials for Quantum Computation, which Levy directed for 10 years. During that time, Levy initiated a theoretical research effort aimed at developing various families of logical qubits based on spin pairs,[4] spin clusters,[5] cluster-state qubits,[6] and dimerized spin chains.[7]

In 2006, Levy visited the group of Jochen Mannhart who had discovered a sharp insulator-to-metal transition in oxide heterostructure composed of a thin layer of LaAlO3 grown on TiO2-terminated SrTiO3. The 3-unit-cell LaAlO3/SrTiO3 was metastable and could be switched with a voltage applied to the back of the SrTiO3substrate. Levy and his student Cheng Cen showed that a biased conductive atomic force microscope tip could locally switch the interface of the 3-unit-cell LaAlO3/SrTiO3 heterostructure system,[8] thus launching a new field that Levy refers to as “Correlated Nanoelectronics”.

Other areas of research

Levy has conducted research in a variety of areas:

Personal life

Levy was born in New York City. In 1990, he married Chandralekha Singh who is also a physicist and currently a distinguished professor in the department of physics and astronomy at the University of Pittsburgh. They were classmates in the Ph.D. program at the University of California, Santa Barbara. They have two sons.

Awards and honors

Notes and References

  1. Web site: Profile, Physics and Astronomy, University of Pittsburgh. Levy . Jeremy.
  2. Web site: Ph.D. Thesis . Jeremy. Levy.
  3. Levy . Jeremy . Quantum information processing with ferro electrically coupled quantum dots . Phys. Rev. A . 2001 . 64 . 5 . 052306 . 10.1103/PhysRevA.64.052306. quant-ph/0101026 . 2001PhRvA..64e2306L . 119403496 .
  4. Levy J . Physical Review Letters . Universal quantum computation with spin-1/2 pairs and Heisenberg exchange . 89 . 14 . 147902 . 30 September 2002 . 0031-9007 . 10.1103/PhysRevLett.89.147902. 12366076 . quant-ph/0101057 . 2002PhRvL..89n7902L . 12071720 .
  5. Meier F, Levy J, Loss D . Physical Review Letters . Quantum computing with spin cluster qubits . 90 . 4 . 047901 . 27 January 2003 . 0031-9007 . 10.1103/Physrevlett.90.047901. 12570460 . cond-mat/0206310 . 2003PhRvL..90d7901M . 39266605 .
  6. Weinstein YS, Hellberg CS, Levy J . Physical Review A . Quantum-dot cluster-state computing with encoded qubits . 72 . 2 . 020304 . 30 August 2005 . 1050-2947 . 10.1103/Physreva.72.020304. quant-ph/0506032 . 2005PhRvA..72b0304W . 34813592 .
  7. Srinivasa V, Levy J, Hellberg CS . Physical Review B . Flying spin qubits: A method for encoding and transporting qubits within a dimerized Heisenberg spin-1/2 chain . 76 . 9 . 094411 . 21 September 2007 . 1098-0121 . 10.1103/Physrevb.76.094411.
  8. Levy . Jeremy . Nanoscale control of an interfacial metal-insulator transition at room temperature . Nature Materials . 2008 . 7 . 4 . 298–302 . 10.1038/nmat2136. 18311143 . 2008NatMa...7..298C .
  9. Ma HZ, Levy J . Nano Letters . GHz apertureless near-field scanning optical microscopy of ferroelectric nanodomain dynamics . 6 . 3 . 341–344 . 17 January 2006 . 1530-6984 . 10.1021/Nl052415u. 16522019 . 2006NanoL...6..341M .
  10. Kato Y, Myers RC, Driscoll DC, Gossard AC, Levy J, Awschalom DD . Science . Gigahertz electron spin manipulation using voltage-controlled g-tensor modulation . 299 . 5610 . 1201–1204 . 21 February 2003 . 0036-8075 . 10.1126/science.1080880. 12543982 . 2003Sci...299.1201K . 29734280 .
  11. Cen C, Thiel S, Mannhart J, Levy J . Science . Oxide nanoelectronics on demand . 323 . 5917 . 1026–1030 . 20 February 2009 . 0036-8075 . 10.1126/science.1168294. 19229030 . 2009Sci...323.1026C . 32623248 .
  12. Bi F, Huang M, Ryu S, Lee H, Bark CW, Eom CB, Irvin P, Levy J . Nature Communications . Room-temperature electronically-controlled ferromagnetism at the LaAlO3/SrTiO3 interface . 5 . 5019 . 25 September 2014 . 2041-1723 . 10.1038/ncomms6019. 25254952 . 1307.5557 . 2014NatCo...5.5019B . 205330460 .
  13. Cheng G, Siles PF, Bi F, Cen C, Bogorin DF, Bark CW, Folkman CM, Park JW, Eom CB, Medeiros-Ribeiro G, Levy J . Nature Nanotechnology . Sketched oxide single-electron transistor . 6 . 6 . 343–347 . 17 April 2011 . 1748-3387 . 10.1038/nnano.2011.56. 21499252 . 2011NatNa...6..343C .
  14. Cheng GL, Tomczyk M, Tacla AB, Lee H, Lu SC, Veazey JP, Huang MC, Irvin P, Ryu S, Eom CB, Daley A, Pekker D, Levy J . Physical Review X . Tunable Electron-Electron Interactions in LaAlO3/SrTiO3 Nanostructures . 6 . 4 . 2016 . 041042 . 2160-3308 . 10.1103/PhysRevX.6.041042. 2016PhRvX...6d1042C . 19807411 . free . 1602.06029 .
  15. Cheng G, Tomczyk M, Lu S, Veazey JP, Huang M, Irvin P, Ryu S, Lee H, Eom CB, Hellberg CS, Levy J . Nature . Electron pairing without superconductivity . 521 . 7551 . 196–199 . 14 May 2015 . 0028-0836 . 10.1038/nature14398. 25971511 . 2015Natur.521..196C . 4460979 .
  16. Chen L, Sutton E, Lee H, Lee JW, Li J, Eom CB, Irvin P, Levy J . Light: Science & Applications . Over 100-THz bandwidth selective difference frequency generation at LaAlO3/SrTiO3 nanojunctions . 8 . 1 . 24 . 27 February 2019 . 2047-7538 . 10.1038/s41377-019-0135-0. 30820320 . 6393436 . 2019LSA.....8...24C .
  17. Web site: NSF CAREER Award, #9701725. Levy. Jeremy.
  18. Web site: Winner of 4th Annual Nano 50 Innovator Award. Levy. Jeremy.
  19. Web site: Selected as APS Fellow (DCMP) . Levy. Jeremy.
  20. Web site: Winner of Chancellor's Distinguished Research Award, University of Pittsburgh. Levy. Jeremy.
  21. Web site: Selected as Vannevar Bush Faculty fellow(2015). Levy. Jeremy.
  22. Web site: Selected as American Association for Advancement of Science Fellows. Levy. Jeremy.