Biography:Michel Devoret

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Short description: French physicist at Yale University
Michel Devoret
Michel H. Devoret 2017 190x180.jpg
Devoret in 2017
Alma materUniversity of Paris-Sud
Ecole Nationale Superieure des Telecommunications
Known forQuantronics, single-electron pump, Circuit quantum electrodynamics
AwardsMicius Quantum Prize 2021, John Bell Prize (2013)
Scientific career
FieldsExperimental Solid-state physics, Condensed Matter Physics, Quantum error correction
InstitutionsYale University
University of Paris-Sud
University of California Berkeley
Doctoral studentsVincent Bouchiat

Michel Devoret is a French physicist and F. W. Beinecke Professor of Applied Physics at Yale University. He also holds a position as the Director of the Applied Physics Nanofabrication Lab at Yale.[1] He is known for his pioneering work on macroscopic quantum tunneling, and the single-electron pump as well as in groundbreaking contributions to initiating the fields of circuit quantum electrodynamics and quantronics.

Biography

Devoret was born in France . He graduated from Ecole Nationale Superieure des Telecommunications in Paris (1975) and went on to earn his PhD in physics from the University of Orsay (University of Paris-Sud) in 1982, while working in the molecular quantum physics group at Paris. After his doctoral work, he proceeded to post-doctoral training for two years, working on macroscopic quantum tunneling in John Clarke's laboratory at the University of California Berkeley.

Devoret's research has been focused on experimental solid state physics and condensed matter physics, with specific emphasis on circuit quantum electrodynamics and a field he and his colleagues initiated, known as "quantronics," the study of certain mesoscopic electronic effects in which collective degrees of freedom, such as electric currents and voltages behave quantum mechanically. In addition, his group has been carrying out investigations on single Cooper pair devices for fields such as quantum computation and metrology, and studying amplification, information, and noise in mesoscopic systems.

His work in association with well-known experimentalists in the field such as Rob Schoelkopf as well as theorists, such as Steven Girvin has brought about valuable insights in quantum computing and in developing a new paradigm of circuit QED using superconducting electrical circuits, which are now viewed as one of the main platforms for the implementation of quantum information processors. Also, after having developed new types of amplifiers reaching the quantum limit, he employed them to determine the fundamental back-action of measurements. In particular, Michel’s team showed that it was possible to stop a quantum jump in its flight and reverse it. He currently investigates the new phenomena of quantum error correction and fault-tolerant quantum operation. In addition, his work on quantum information, in association with A. Marblestone, has shown an exponential quantum enhancement in certain communication channels as a result of entanglement (see Quantum pseudo-telepathy).[2]

In addition to a number of awards, he has been awarded the John Bell Prize (shared with Rob Schoelkopf) in 2013 for "Fundamental and pioneering experimental advances in entangling superconducting qubits and microwave photons, and their application to quantum information processing."[3]

Honors

  • Comstock Prize in Physics, 2024
  • Olli V. Lounasmaa Memorial Prize, 2016
  • Fritz London Memorial Prize, 2014
  • John Bell Prize (shared with Robert Schoelkopf), 2013
  • Elected Membership, the French Academy of Sciences, 2007
  • Professorship at the College de France, 2007-2012
  • Europhysics-Agilent Prize, European Physical Society, 2004
  • Elected Membership, the American Academy of Arts and Sciences, 2003
  • Descartes-Huygens Prize, the Royal Netherlands Academy of Arts and Science, 1995
  • Prize Ampère, the French Academy of Science, 1991

Noteworthy publications

  • Campagne-Ibarcq*, P.; Eickbusch*, A.; Touzard*, S. et al. (2020-08-19). "Quantum error correction of a qubit encoded in grid states of an oscillator". Nature (Springer Science and Business Media LLC) 584 (7821): 368–372. doi:10.1038/s41586-020-2603-3. ISSN 0028-0836. 
  • Grimm, A.; Frattini, N. E.; Puri, S.; Mundhada, S. O.; Touzard, S.; Mirrahimi, M.; Girvin, S. M.; Shankar, S. et al. (2020-08-12). "Stabilization and operation of a Kerr-cat qubit". Nature (Springer Science and Business Media LLC) 584 (7820): 205–209. doi:10.1038/s41586-020-2587-z. ISSN 0028-0836. 
  • Minev, Z. K.; Mundhada, S. O.; Shankar, S.; Reinhold, P.; Gutiérrez-Jáuregui, R.; Schoelkopf, R. J.; Mirrahimi, M.; Carmichael, H. J. et al. (2019). "To catch and reverse a quantum jump mid-flight". Nature (Springer Science and Business Media LLC) 570 (7760): 200–204. doi:10.1038/s41586-019-1287-z. ISSN 0028-0836. 
  • Leghtas, Z.; Touzard, S.; Pop, I. M.; Kou, A.; Vlastakis, B.; Petrenko, A.; Sliwa, K. M.; Narla, A. et al. (2015-02-19). "Confining the state of light to a quantum manifold by engineered two-photon loss". Science (American Association for the Advancement of Science (AAAS)) 347 (6224): 853–857. doi:10.1126/science.aaa2085. ISSN 0036-8075. 
  • Mirrahimi, Mazyar; Leghtas, Zaki; Albert, Victor V; Touzard, Steven; Schoelkopf, Robert J; Jiang, Liang; Devoret, Michel H (2014-04-22). "Dynamically protected cat-qubits: a new paradigm for universal quantum computation". New Journal of Physics (IOP Publishing) 16 (4): 045014. doi:10.1088/1367-2630/16/4/045014. ISSN 1367-2630. 
  • Devoret, M. H.; Schoelkopf, R. J. (2013-03-07). "Superconducting Circuits for Quantum Information: An Outlook". Science (American Association for the Advancement of Science (AAAS)) 339 (6124): 1169–1174. doi:10.1126/science.1231930. ISSN 0036-8075. PMID 23471399. Bibcode2013Sci...339.1169D. 
  • Abdo, Baleegh; Sliwa, Katrina; Schackert, Flavius; Bergeal, Nicolas; Hatridge, Michael et al. (2013-04-26). "Full Coherent Frequency Conversion between Two Propagating Microwave Modes". Physical Review Letters 110 (17): 173902. doi:10.1103/physrevlett.110.173902. ISSN 0031-9007. PMID 23679729. Bibcode2013PhRvL.110q3902A. 
  • Geerlings, K.; Leghtas, Z.; Pop, I. M.; Shankar, S.; Frunzio, L. et al. (2013-03-20). "Demonstrating a Driven Reset Protocol for a Superconducting Qubit". Physical Review Letters 110 (12): 120501. doi:10.1103/physrevlett.110.120501. ISSN 0031-9007. PMID 25166782. Bibcode2013PhRvL.110l0501G. 
  • Hatridge, M.; Shankar, S.; Mirrahimi, M.; Schackert, F.; Geerlings, K. et al. (2013-01-10). "Quantum Back-Action of an Individual Variable-Strength Measurement". Science (American Association for the Advancement of Science (AAAS)) 339 (6116): 178–181. doi:10.1126/science.1226897. ISSN 0036-8075. PMID 23307736. Bibcode2013Sci...339..178H. 
  • Kamal, Archana; Clarke, John; Devoret, M. H. (2011-01-30). "Noiseless non-reciprocity in a parametric active device". Nature Physics 7 (4): 311–315. doi:10.1038/nphys1893. ISSN 1745-2473. Bibcode2011NatPh...7..311K. 
  • Bergeal, N.; Schackert, F.; Metcalfe, M.; Vijay, R.; Manucharyan, V. E. et al. (2010). "Phase-preserving amplification near the quantum limit with a Josephson ring modulator". Nature (Springer Science and Business Media LLC) 465 (7294): 64–68. doi:10.1038/nature09035. ISSN 0028-0836. PMID 20445625. Bibcode2010Natur.465...64B. 
  • Bergeal, N.; Vijay, R.; Manucharyan, V. E.; Siddiqi, I.; Schoelkopf, R. J.; Girvin, S. M.; Devoret, M. H. (2010-02-14). "Analog information processing at the quantum limit with a Josephson ring modulator". Nature Physics (Springer Science and Business Media LLC) 6 (4): 296–302. doi:10.1038/nphys1516. ISSN 1745-2473. Bibcode2010NatPh...6..296B. 
  • Manucharyan, V. E.; Koch, J.; Glazman, L. I.; Devoret, M. H. (2009-10-01). "Fluxonium: Single Cooper-Pair Circuit Free of Charge Offsets". Science 326 (5949): 113–116. doi:10.1126/science.1175552. ISSN 0036-8075. PMID 19797655. Bibcode2009Sci...326..113M. 
  • Metcalfe, M.; Boaknin, E.; Manucharyan, V.; Vijay, R.; Siddiqi, I.; Rigetti, C.; Frunzio, L.; Schoelkopf, R. J. et al. (2007-11-21). "Measuring the decoherence of a quantronium qubit with the cavity bifurcation amplifier". Physical Review B (American Physical Society (APS)) 76 (17): 174516. doi:10.1103/physrevb.76.174516. ISSN 1098-0121. Bibcode2007PhRvB..76q4516M. 
  • Roy, Ananda; Devoret, Michel (2016). "Introduction to parametric amplification of quantum signals with Josephson circuits". Comptes Rendus Physique (Elsevier BV) 17 (7): 740–755. doi:10.1016/j.crhy.2016.07.012. ISSN 1631-0705. Bibcode2016CRPhy..17..740R. 

References

  1. "Michel Devoret - Department of Applied Physics". http://appliedphysics.yale.edu/michel-devoret. 
  2. A. Marblestone and M. Devoret, "Exponential Quantum Enhancement for Distributed Addition with Local Nonlinearity", Quantum Information Processing, Vol. 9, No.1 (2010)
  3. "2013: Devoret and Schoelkopf". http://cqiqc.physics.utoronto.ca/bell_prize/devoret_schoelkopf.html. 

External links