Jeffrey Shapiro Explained

Jeffrey H. Shapiro
Nationality:American
Fields:Electrical engineering
Workplaces:Massachusetts Institute of Technology, Case Western Reserve University
Alma Mater:Massachusetts Institute of Technology
Doctoral Advisor:Robert S. Kennedy
Known For:Quantum communication, squeezed state, ghost imaging

Jeffrey H. Shapiro is a Julius A. Stratton Professor of electrical engineering and computer science at the Massachusetts Institute of Technology and the former director of the Research Laboratory of Electronics.[1] He made seminal contributions to understanding the fundamental quantum limits on communications, generation, detection, and application of quantum squeezed state, ghost imaging, and quantum information science. He invented the microchannel-plate spatial light modulator with Cardinal Warde.[2]

Biography

Shapiro received his S.B., S.M., E.E., and Ph.D. degrees in electrical engineering from MIT in 1967, 1968, 1969, and 1970, respectively. From 1970 to 1973, he was on the faculty of Case Western Reserve University. From 1973 to 1985, he was an associate professor of electrical engineering at MIT, and in 1985, he was promoted to professor of electrical engineering. He became a Julius A. Stratton Professor in 1999.

From 1989 to 1999, Shapiro served as the associate department head of MIT's department of electrical engineering and computer science. He was appointed director of the Research Laboratory of Electronics in 2001.[3] He is also a director of MIT's Optical and Quantum Communications Group.[4]

Research

Shapiro's research focuses on utilizing quantum mechanical effects to develop metrology tools and applications, whose performance greatly exceeds what can be realized with conventional, classical-physics systems. In particular, his group investigated the quantum limits on optical communications, such as remote viewing, and derived the capacity of quantum channels. His group also demonstrated high-performance entanglement sources and took advantage of these sources to implement quantum key distribution systems. Shapiro's group pioneered in developing quantum illumination,[5] which enables use of entanglement in lossy and noisy environments.[6] [7]

Honors

External links

Notes and References

  1. http://www.rle.mit.edu/shapiro Jeffrey Shapiro
  2. Book: Kalb, Gilbert. Massively Parallel, Optical, and Neural Computing in the United States. 1992. IOS Press. 91. Robert Moxley. 9789051990973.
  3. http://www.rle.mit.edu/rle-professor-jeffrey-h-shapiro-julius-a-stratton-professor-of-electrical-engineering-named-the-seventh-director-of-the-research-laboratory-of-electronics/ Shapiro appointed the seventh Director of RLE
  4. Web site: Hardesty. Larry. Making quantum encryption practical. Phys.org. 20 November 2013. May 21, 2013.
  5. Zhang . Zheshen . Tengner . Maria . Zhong . Tian . Wong . Franco N. C. . Shapiro . Jeffrey H. . Entanglement's Benefit Survives an Entanglement-Breaking Channel . Physical Review Letters . American Physical Society (APS) . 111 . 1 . 2013-07-01 . 0031-9007 . 10.1103/physrevlett.111.010501 . 010501. 23862986 . 1303.5343 . 2013PhRvL.111a0501Z . free .
  6. Broken quantum links still work . Nature . Springer Science and Business Media LLC . 499 . 7457 . 2013 . 0028-0836 . 10.1038/499129a . 129. free .
  7. Fragility of entanglement no bar to quantum secrets, New Scientist July 17, 2013(https://www.newscientist.com/article/dn23882-fragility-of-entanglement-no-bar-to-quantum-secrets.html#.Uo15S5GzweY)
  8. http://qcmc2012.org/awards/ Laureates of the Quantum Communication Award
  9. Web site: 2008 IEEE/LEOS Quantum Electronics Award Recipients: Jeffrey H. Shapiro and Horace P. Yuen. IEEE website. 20 November 2013. https://web.archive.org/web/20130709144737/http://photonicssociety.org/newsletters/jun08/quantum_recipients.html. 9 July 2013. dead.