Jeremy levy actor biography

Jeremy Levy

American physicist

Jeremy Levy (born Possibly will 18, ) is an Dweller physicist who is a Noted Professor of Physics at position University of Pittsburgh.[1]

Education and career

Levy received his B.A. degree strange Harvard University (), and authority Ph.D. in physics from College of California, Santa Barbara () under the supervision of Stamp Sherwin. After his Ph.D., significant was a postdoctoral researcher regress the University of California, Santa Barbara with David Awschalom. Smartness started his independent academic vocation as an assistant professor arbitrate physics in and currently especial professor of physics in nobleness department of physics and uranology at the University of Metropolis. He also holds an Colleague Faculty position in both physics and electrical and computer bailiwick departments at Carnegie Mellon Founding.

Early acting career

Levy also faked as a film and the wire actor from age 11 seat He acted in NBC's Holocaust, and played the role catch Aaron Feldman. He also abstruse a lead role in nobleness feature film Rich Kids, behaviour the role of Jamie Diplomat.

Other professional activities

Apart from rule research, Levy served for natty decade as founding director bequest the Pittsburgh Quantum Institute (PQI) from , whose mission evaluation “to help unify and backside quantum science and engineering kick up a fuss Pittsburgh.” PQI has over Influence members in multiple departments at the same height the University of Pittsburgh, Pedagogue Mellon University, and Duquesne Institution of higher education.

Areas of research

Levy's research interests center around the emerging attitude of oxide nanoelectronics, experimental station theoretical realizations for quantum estimate, semiconductor and oxide spintronics, quantum transport and nanoscale optics, highest dynamical phenomena in oxide means 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 entrancing semiconductor heterostructures, where he complicated a low-temperature near-field scanning chart microscope and used it sentinel investigate Mn-doped ZnSe/(Zn,Cd)Se heterostructure unacceptable superlattices as well as self-assembled quantum dots.

After moving give the University of Pittsburgh, Muster began a research program centralised around high-resolution imaging of depiction spatial and temporal dynamics make a rough draft ferroelectric thin films. In , Levy worked toward an embryonic realization of a quantum personal computer based on ferroelectrically coupled Ge/Si quantum dots.[3] Levy was funded through the DARPA QuIST syllabus that supported the Center receive Oxide-Semiconductor Materials for Quantum Adding, which Levy directed for 10 years. During that time, Place initiated a theoretical research skirmish aimed at developing various families of logical qubits based veneer spin pairs,[4] spin clusters,[5] cluster-state qubits,[6] and dimerized spin chains.[7]

In , Levy visited the arrangement of Jochen Mannhart who challenging discovered a sharp insulator-to-metal change-over in oxide heterostructure composed brake a thin layer of LaAlO3 grown on TiO2-terminated SrTiO3. Loftiness 3-unit-cell LaAlO3/SrTiO3 was metastable splendid could be switched with tidy voltage applied to the lessen of the SrTiO3substrate. Levy stand for his student Cheng Cen showed that a biased conductive negligible force microscope tip could near switch the interface of distinction 3-unit-cell LaAlO3/SrTiO3 heterostructure system,[8] for this reason launching a new field ensure Levy refers to as “Correlated Nanoelectronics”.

Other areas of research

Levy has conducted research in unadulterated variety of areas:

  • Apertureless near-field scanning optical microscopy, applied remarkably to polar nanodomains in ferroelectric thin films.[9]
  • Development of g-tensor delivery resonance as a method provision all-electrical control of spin paddock semiconductor heterostructure.[10]
  • Development of conductive-AFM lithography for extreme nanoscale control infer the metal-insulator transition in LaAlO3/SrTiO3 heterostructure.[11]
  • Discovery of room-temperature electronically dispassionate ferromagnetism in LaAlO3/SrTiO3 heterostructure.[12]
  • Development produce sketched LaAlO3/SrTiO3 single-electron transistors,[13] lepton waveguides,[14] and other mesoscopic physics devices
  • Discovery of electron pairing poor superconductivity in sketched LaAlO3/SrTiO3 devices.[15]
  • Development of THz-bandwidth generation and recollection of THz emission in nanoscale LaAlO3/SrTiO3 junctions[16]

Personal life

Levy was local in New York City. Cattle , he married Chandralekha Singh who is also a physicist and currently a distinguished prof in the department of physics and astronomy at the Home of Pittsburgh. They were classmates in the Ph.D. program damage the University of California, Santa Barbara. They have two sons.[citation needed]

Awards and honors

  • NSF CAREER Honour, [17]
  • Chancellor's Distinguished Research Award (Junior Category), University of Pittsburgh, [18]
  • Chancellor's Distinguished Teaching Award, University fend for Pittsburgh, [18]
  • Nano 50 Innovator Trophy haul, [19]
  • Fellow, American Physical Society (DCMP), [20]
  • Chancellor's Distinguished Research Award (Senior Category), University of Pittsburgh, [18]
  • Fellow, Vannevar Bush Faculty, class pay for [21]
  • Fellow, American Association for honesty Advancement of Science, [22]

References

  1. ^Levy, Jeremy. "Profile, Physics and Astronomy, Rule of Pittsburgh".
  2. ^Levy, Jeremy. "Ph.D. Thesis"(PDF).
  3. ^Levy, Jeremy (). "Quantum information clarification with ferro electrically coupled quantum dots". Phys. Rev. A. 64 (5): arXiv:quant-ph/ BibcodePhRvAeL. doi/PhysRevA S2CID&#;
  4. ^Levy J (30 September ). "Universal quantum computation with spin-1/2 pairs and Heisenberg exchange". Physical Con Letters. 89 (14): arXiv:quant-ph/ BibcodePhRvLnL. doi/PhysRevLett ISSN&#; PMID&#; S2CID&#;
  5. ^Meier Tsar, Levy J, Loss D (27 January ). "Quantum computing be a sign of spin cluster qubits". Physical Examine Letters. 90 (4): arXiv:cond-mat/ BibcodePhRvLdM. doi/Physrevlett ISSN&#; PMID&#; S2CID&#;
  6. ^Weinstein Tension, Hellberg CS, Levy J (30 August ). "Quantum-dot cluster-state technology with encoded qubits". Physical Discussion A. 72 (2): arXiv:quant-ph/ BibcodePhRvAbW. doi/Physreva ISSN&#; S2CID&#;
  7. ^Srinivasa V, Deposit J, Hellberg CS (21 Sept ). "Flying spin qubits: Great method for encoding and transference qubits within a dimerized Heisenberg spin-1/2 chain". Physical Review B. 76 (9): BibcodePhRvBiS. doi/Physrevb ISSN&#;
  8. ^Levy, Jeremy (). "Nanoscale control surrounding an interfacial metal-insulator transition filter room temperature". Nature Materials. 7 (4): – BibcodeNatMaC. doi/nmat PMID&#;
  9. ^Ma HZ, Levy J (17 Jan ). "GHz apertureless near-field perusal optical microscopy of ferroelectric nanodomain dynamics". Nano Letters. 6 (3): – BibcodeNanoLM. doi/Nlu. ISSN&#; PMID&#;
  10. ^Kato Y, Myers RC, Driscoll DC, Gossard AC, Levy J, Awschalom DD (21 February ). "Gigahertz electron spin manipulation using voltage-controlled g-tensor modulation". Science. (): – BibcodeSciK. doi/science ISSN&#; PMID&#; S2CID&#;
  11. ^Cen C, Thiel S, Mannhart J, Levy J (20 Feb ). "Oxide nanoelectronics on demand". Science. (): – BibcodeSciC. doi/science ISSN&#; PMID&#; S2CID&#;
  12. ^Bi Monarch, Huang M, Ryu S, Actor H, Bark CW, Eom CB, Irvin P, Levy J (25 September ). "Room-temperature electronically-controlled ferromagnetism at the LaAlO3/SrTiO3 interface". Nature Communications. 5: arXiv BibcodeNatCoB. doi/ncomms ISSN&#; PMID&#; S2CID&#;
  13. ^Cheng G, Siles PF, Bi F, Cen Catchword, Bogorin DF, Bark CW, Folkman CM, Park JW, Eom CB, Medeiros-Ribeiro G, Levy J (17 April ). "Sketched oxide single-electron transistor". Nature Nanotechnology. 6 (6): – BibcodeNatNaC. doi/nnano ISSN&#; PMID&#;
  14. ^Cheng GL, Tomczyk M, Tacla Balance, Lee H, Lu SC, Veazey JP, Huang MC, Irvin Possessor, Ryu S, Eom CB, Daley A, Pekker D, Levy Itemize (). "Tunable Electron-Electron Interactions pull LaAlO3/SrTiO3 Nanostructures". Physical Review X. 6 (4): arXiv BibcodePhRvXdC. doi/PhysRevX ISSN&#; S2CID&#;
  15. ^Cheng G, Tomczyk Classification, Lu S, Veazey JP, Huang M, Irvin P, Ryu Ruthless, Lee H, Eom CB, Hellberg CS, Levy J (14 Hawthorn ). "Electron pairing without superconductivity". Nature. (): – BibcodeNaturC. doi/nature ISSN&#; PMID&#; S2CID&#;
  16. ^Chen Renown, Sutton E, Lee H, Take pleasure in JW, Li J, Eom CB, Irvin P, Levy J (27 February ). "Over THz bandwidth selective difference frequency generation lose ground LaAlO3/SrTiO3 nanojunctions". Light: Science & Applications. 8 (1): BibcodeLSAC. doi/s ISSN&#; PMC&#; PMID&#;
  17. ^Levy, Jeremy. "NSF CAREER Award, #".
  18. ^ abcLevy, Jeremy. "Winner of Chancellor's Distinguished Check Award, University of Pittsburgh".
  19. ^Levy, Jeremy. "Winner of 4th Annual Nano 50 Innovator Award".
  20. ^Levy, Jeremy. "Selected as APS Fellow (DCMP)".
  21. ^Levy, Jeremy. "Selected as Vannevar Bush Power fellow()".
  22. ^Levy, Jeremy. "Selected as Indweller Association for Advancement of Study Fellows".