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(Top) 1 Early life and career 2 Honors and awards 3 References

Nathaniel J. Fisch

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Nathaniel Joseph Fisch
Born	(1950-12-29) December 29, 1950 (age 73)
Nationality	American
Education	Massachusetts Institute of Technology (B.S., M.S., Ph.D.)
Awards	Guggenheim Fellowship (1985) E. O. Lawrence Award (2004) James Clerk Maxwell Prize for Plasma Physics (2005) Hannes Alfvén Prize (2015)
Scientific career
Fields	Plasma physics
Thesis	Confining and heating a toroidal plasma with RF power. (1978)

Website	w3.pppl.gov/~fisch/

Nathaniel Joseph Fisch is an American plasma physicist known for pioneering the excitation of electric currentsinplasmas using electromagnetic waves,^[1]^[2] which was then used in tokamak experiments.^[3]^[4] This contributed to an increased understanding of plasma wave–particle interactions in the field for which he was awarded the James Clerk Maxwell Prize for Plasma Physics in 2005 and the Hannes Alfvén Prize in 2015.

Fisch's research also involve inertial fusion,^[5]^[6] as well as methods to generate intensive laser fields to accelerate particles,^[7] such as the ones used in plasma thrusters.^[8]^[9] He is also known to have worked on the hydrodynamics of charged liquids,^[10] petroleum refinement,^[11] and pattern recognition.^[12]

Early life and career[edit]

Fisch studied at the Massachusetts Institute of Technology (as MIT National Scholar 1968 to 1972), where he received his bachelor's and master's degree in 1972 and 1975 respectively, and received his doctorate in computer science and electrical engineering in 1978.^[13] From 1978, he was a scientist in the plasma physics laboratory at Princeton University, where he has been a professor in the Faculty of Astrophysics since 1991 (also associated with the Faculty of Mechanics and Flight Engineering since 2000) and heads the University's Plasma Physics Program. In 1986, he was a visiting scientist at IBM's Thomas J. Watson Research Center. From 1981 to 1986, he was a consultant at Exxon Research.^[13]

Honors and awards[edit]

Fisch was awarded the Guggenheim Fellowship in 1985.^[14] He was then elected a fellow of the American Physical Society in 1987,^[15] and was subsequently awarded the John Dawson Award for Excellence in Plasma Physics Research in 1992 for fundamental theoretical work on non-inductive power generation in toroidally enclosed plasmas.^[16]

In 2004, he received the Ernest Orlando Lawrence Award.^[17]

In 2005, he received the James Clerk Maxwell Prize for Plasma Physics for "theoretical development of efficient radio frequency (RF)-driven current in plasmas and for greatly expanding our ability to understand, to analyze, and to utilize wave–plasma interactions."^[18]

In 2015, he was awarded the Hannes Alfvén Prize from the European Physical Society for "his contributions to the understanding of plasma wave–particle interactions and their applications to efficiently driving currents with radio-frequency waves."^[19]

References[edit]

^ Karney, Charles F. F.; Fisch, Nathaniel J. (1979). "Numerical studies of current generation by radio-frequency traveling waves". The Physics of Fluids. 22 (9): 1817–1824. Bibcode:1979PhFl...22.1817K. doi:10.1063/1.862787. ISSN 0031-9171.

^ Fisch, N. J.; Boozer, A. H. (1980). "Creating an Asymmetric Plasma Resistivity with Waves". Physical Review Letters. 45 (9): 720–722. Bibcode:1980PhRvL..45..720F. doi:10.1103/PhysRevLett.45.720.

^ Fisch, Nathaniel J. (1987). "Theory of current drive in plasmas". Reviews of Modern Physics. 59 (1): 175–234. Bibcode:1987RvMP...59..175F. doi:10.1103/RevModPhys.59.175.

^ Fisch, Nathaniel J. (1978). "Confining a Tokamak Plasma with rf-Driven Currents". Physical Review Letters. 41 (13): 873–876. Bibcode:1978PhRvL..41..873F. doi:10.1103/PhysRevLett.41.873.

^ Malkin, V. M.; Fisch, N. J. (2002). "Collective Deceleration of Relativistic Electrons Precisely in the Core of an Inertial-Fusion Target". Physical Review Letters. 89 (12): 125004. Bibcode:2002PhRvL..89l5004M. doi:10.1103/PhysRevLett.89.125004. PMID 12225091.

^ Son, S.; Fisch, N. J. (2004). "Aneutronic fusion in a degenerate plasma". Physics Letters A. 329 (1): 76–82. Bibcode:2004PhLA..329...76S. doi:10.1016/j.physleta.2004.06.054. ISSN 0375-9601.

^ Malkin, V. M.; Shvets, G.; Fisch, N. J. (1999). "Fast Compression of Laser Beams to Highly Overcritical Powers". Physical Review Letters. 82 (22): 4448–4451. Bibcode:1999PhRvL..82.4448M. doi:10.1103/PhysRevLett.82.4448.

^ Raitses, Y.; Staack, D.; Keidar, M.; Fisch, N. J. (2005). "Electron-wall interaction in Hall thrusters". Physics of Plasmas. 12 (5): 057104. Bibcode:2005PhPl...12e7104R. doi:10.1063/1.1891747. hdl:2027.42/87763. ISSN 1070-664X.

^ Raitses, Y.; Smirnov, A.; Fisch, N. J. (2009). "Effects of enhanced cathode electron emission on Hall thruster operation". Physics of Plasmas. 16 (5): 057106. Bibcode:2009PhPl...16e7106R. doi:10.1063/1.3131282. ISSN 1070-664X.

^ Zweben, Stewart J.; Gueroult, Renaud; Fisch, Nathaniel J. (September 12, 2018). "Plasma mass separation". Physics of Plasmas. 25 (9): 090901. Bibcode:2018PhPl...25i0901Z. doi:10.1063/1.5042845. ISSN 1070-664X. OSTI 1472074. S2CID 226888946.

^ Gueroult, Renaud; Zweben, Stewart J.; Fisch, Nathaniel J.; Rax, J.-M. (2019). "E × B configurations for high-throughput plasma mass separation: An outlook on possibilities and challenges". Physics of Plasmas. 26 (4): 043511. Bibcode:2019PhPl...26d3511G. doi:10.1063/1.5083229. ISSN 1070-664X. OSTI 1558921. S2CID 146108817.

^ Solodov, A. A.; Malkin, V. M.; Fisch, N. J. (2003). "Random density inhomogeneities and focusability of the output pulses for plasma-based powerful backward Raman amplifiers". Physics of Plasmas. 10 (6): 2540–2544. Bibcode:2003PhPl...10.2540S. doi:10.1063/1.1576761. ISSN 1070-664X.

^ ^a ^b "Fisch, N. J." history.aip.org. Retrieved February 20, 2020.

^ "John Simon Guggenheim Foundation | Nathaniel J. Fisch". Retrieved February 20, 2020.

^ "APS Fellow Archive". American Physical Society. (search on year=1987 and institution=Princeton Plasma Physics Laboratory)

^ "1992 John Dawson Award for Excellence in Plasma Physics Research Recipient". American Physical Society. Retrieved February 20, 2020.

^ "DOE Presents E. O. Lawrence Award". Physics Today. 57 (12): 76–77. January 12, 2007. doi:10.1063/1.2408623. ISSN 0031-9228.

^ "2005 James Clerk Maxwell Prize for Plasma Physics Recipient". American Physical Society. Retrieved February 20, 2020.

^ "FACULTY AWARD: Fisch wins Hannes Alfvén Prize for plasma physics contributions". Princeton University. Retrieved February 20, 2020.

Hannes Alfvén Prize recipients

2000–2009

2000: Radu Bălescu
2001: Vitaly Shafranov
2002: Marshall Rosenbluth
2003: Vladimir Fortov
2004: John Connor / Robert J. Hastie [de] / John Bryan Taylor
2005: Malcolm Haines / Tom Sanford / Valentin Smirnov
2006: Paul-Henri Rebut
2007: Friedrich Wagner
2008: Liu Chen
2009: Jürgen Meyer-ter-Vehn

2010–2019

2010: Allen Boozer / Jürgen Nührenberg
2011: Patrick Diamond / Akira Hasegawa / Kunioki Mima
2012: Eugene Parker
2013: Miklos Porkolab
2014: Patrick Mora
2015: Nathaniel J. Fisch
2016: Sergei Bulanov / Hartmut Zohm
2017: Ksenia Razumova
2018: Tony Bell
2019: Victor Malka / Toshiki Tajima

2020–present

2020: Annick Pouquet
2021: Sergei Krasheninnikov
2022: Xavier Garbet
2023: Pisin Chen / James Rosenzweig / Chandrashekhar J. Joshi
2024: Tünde Fülöp [sv] / Per Helander [de]

v t e James Clerk Maxwell Prize for Plasma Physics recipients
1975–1990	1975: Lyman Spitzer 1976: Marshall Rosenbluth 1977: John M. Dawson 1978: Richard F. Post 1979: Tihiro Ohkawa 1980: Thomas H. Stix 1981: John Nuckolls 1982: Ira B. Bernstein 1983: Harold Fürth 1984: Donald W. Kerst 1985: John H. Malmberg 1986: Harold Grad 1987: Bruno Coppi 1988: Norman Rostoker 1989: Ravindra N. Sudan 1990: William L. Kruer
1991–2000	1991: Hans R. Griem 1992: John M. Greene 1993: Russell Kulsrud 1994: Roy W. Gould 1995: Francis F. Chen 1996: Thomas M. O'Neil 1997: Charles Kennel 1998: Boris Kadomtsev 1999: John B. Taylor 2000: Akira Hasegawa
2001–2010	2001: Roald Sagdeev 2002: Edward A. Frieman 2003: Eugene Parker 2004: Noah Hershkowitz / Valery Godyak 2005: Nathaniel J. Fisch 2006: Chandrashekhar J. Joshi 2007: John Lindl 2008: Ronald C. Davidson 2009: Miklos Porkolab 2010: James F. Drake
2011–2020	2011: Gregor Morfill 2012: Liu Chen 2013: Phillip Sprangle 2014: Clifford Surko 2015: Masaaki Yamada 2016: Ellen G. Zweibel 2017: Dmitri Ryutov 2018: Keith Burrell 2019: William H. Matthaeus 2020: Warren B. Mori
2021–present	2021: Margaret G. Kivelson 2022: Amitava Bhattacharjee 2023: Thomas M. Antonsen Jr.

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