Liu Chen (physicist)

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Liu Chen (simplified Chinese: 陈骝; traditional Chinese: 陳騮; pinyin: Chén Liú; born 1946 in Hangzhou, Zhejiang) is an American theoretical physicist who has made original contributions to many aspects of plasma physics. He is known for the discoveries of kinetic Alfven waves,[1] toroidal Alfven eigenmodes,[2] and energetic particle modes;[3] the theories of geomagnetic pulsations,[4] Alfven wave heating,[5] and fishbone oscillations,[6] and the first formulation of nonlinear gyrokinetic equations.[7] Chen retired from University of California, Irvine (UCI) in 2012, assuming the title professor emeritus of physics and astronomy.

Liu Chen
陳騮
Liu Chen at UCI in 2004.
Born(1946-02-04)February 4, 1946
NationalityChinese-American
Citizenship
EducationNational Taiwan University (BS)
Washington State University, Pullman (MS)
University of California, Berkeley (PhD)
Spouse
Shingshah Lee (李醒夏)
(m. 1969)
Children1
Awards
Scientific career
FieldsPlasma physics
Institutions
Thesis (1972)
Doctoral advisorCharles K. Birdsall
Websitewww.faculty.uci.edu/profile.cfm?faculty_id=2034

Biography

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Chen was born in 1946 in Hangzhou with ancestral roots in Yuyao. Chen's ancestral family name is Huang (黃), he is a descendant of Chengliang Huang (黃澄量), founder of the Five-Osmanthus Building (五桂樓) library, and the great scholar and thinker Zongxi Huang (黃宗羲). His great-grandfather, Chengyi Huang (黃承乙) was the mayor of Taiwan County, now Taichung City, during the Guangxu period of the Qing dynasty.

In 1950, after the defeat of the Nationalists by the Communists in the Chinese Civil War, Chen left mainland China with his mother, Shyue Yan King Chen (金學言, 1916–2006), and three siblings. They joined his father, Lee Chen (陳禮, 1913–2003), at the Tiu Keng Leng refugee camp in Hong Kong, where he began his education. The Chen family moved to Taiwan in 1951. Chen was married to Shingshah Lee (李醒夏) in August 1969. They have one son Peijin (陳培進).

Chen graduated from the Affiliated Senior High School of National Taiwan Normal University in 1962. In 1966, he took his undergraduate degree at National Taiwan University. Chen went to United States for graduate schooling in 1967, where he obtained a Master of Science Degree from Washington State University, Pullman in 1969, and a Doctor of Philosophy Degree from the University of California, Berkeley under the supervision of Charles K. Birdsall in 1972, for his research work I. Heating of Magnetized Plasmas by Large-Amplitude Electric Field. II. Reduction of the Grid Effects in Simulation Plasmas.

From 1972 to 1974, Chen did his postdoctoral research with Akira Hasegawa at the Bell Labs. They developed a theory for long-period magnetic pulsations in the magnetosphere based on resonant coupling between hydromagnetic compressional waves and transverse Alfvén continuous spectrum.[4] This theory, later referred to as Chen-Hasegawa field-line-resonance model, successfully explained the observations in the Earth's magnetosphere by Louis J. Lanzerotti, and has become the standard model for magnetic pulsations in the Earth's and other planetary magnetospheres. Soon, their focus turned to the charged particle heating via resonant absorption within Alfvén wave continuous spectrum.[5] They discovered the Kinetic Alfvén wave,[1] which resolves the logarithmic singularity of magnetohydrodynamic shear Alfvén waves and plays important roles in the heating, acceleration and transport of charged particles in solar, magnetospheric, and laboratory plasmas.

From 1974, Chen worked for 19 years at Princeton Plasma Physics Laboratory (PPPL) and Princeton University, there his interest was directed to the study of fusion plasmas. He, in collaboration with Edward A. Frieman, formulated and derived the first nonlinear gyrokinetic equation,[7] the Frieman-Chen equation named in their honor, which has played a fundamental role in the physics understanding of strongly magnetized plasmas in the last decades. With Chio-Zong Cheng and Morrell S. Chance, Chen predicted the existence of hydromagnetic Alfvén bound states in laboratory plasmas due to realistic symmetry-breaking equilibrium conditions.[2] These hydromagnetic Alfvén bound states were later observed in worldwide plasma experimental devices. Chen is also well known for his collaboration with Roscoe White and Marshall Rosenbluth in demonstrating theoretically that supra-thermal energetic particles can spontaneously excite in laboratory plasmas a unique macroscopic hydromagnetic wave, observed experimentally as “fishbones” from the magnetic signals.[6] From 1986 until 1993, Chen served as the deputy head of the Theory Department at PPPL.

In 1993, Chen became a professor of Department of Physics & Astronomy at the University of California, Irvine (UCI). During this period, Chen discovered the existence of energetic-particle modes within the shear Alfvén wave continuous spectrum and introduced a unified theoretical framework to understand the distinctive features of different Alfvén bound states and energetic-particle continuum modes.[3] Subsequently, in the past two decades, this theory was generalized by a series of papers written jointly with Fulvio Zonca, and named as the general fishbone-like dispersion relation.[8] In 2000, Chen and coworkers elucidated that drift wave turbulence can spontaneously generate coherent zonal flows via intensity-modulation interactions, resulting in turbulence self-regulation.[9] This nonlinear process has a broad scope of applications and has been generalized to the zonal structures in charged particle phase space.[8] Chen retired from UCI in 2012.

Chen visited mainland China in 1975 for the first time after the normalization of US-China relationship. Chen has, throughout the years, played active roles in the development of plasma physics research as well as training next generation of plasma physicists both in mainland China and Taiwan. In 1985, Chen helped Shih-Tung Tsai and Changxuan Yu to establish the Chinese Summer School for Plasma Physics. In 2007, Chen initiated the Cross-Strait Symposium on the Fusion Energy and Plasma Science. Chen served, from 1997 to 2016, as the Founding Chairman of Foundation of Shih-Tung Tsai Award for Plasma Physics. Chen was appointed as an Honorary Research Professor at Institute of Physics, Chinese Academy of Sciences, Beijing, in 1990, Visiting Kuang-Piu Chair Professor at Zhejiang University,[10] Hangzhou, in 2004, and Visiting Kuo-Ting Chair Professor at National Central University, Zhongli, Taiwan, in 2007. From 2006 to 2016, Chen served as the founding director of the Institute for Fusion Theory and Simulation (IFTS) at Zhejiang University. In 2016, Chen became the director emeritus.

Chen has also published a graduate textbook Waves and Instabilities in Plasmas (World Scientific Publication Co., 1987), and nurtured generations of graduate students and postdocs worldwide.

Honors and awards

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References

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  1. ^ a b Hasegawa, Akira; Chen, Liu (1976). "Kinetic processes in plasma heating by resonant mode conversion of Alfvén wave". The Physics of Fluids. 19 (12): 1924–1934. Bibcode:1976PhFl...19.1924H. doi:10.1063/1.861427. ISSN 0031-9171. OSTI 7258509.
  2. ^ a b Cheng, C. Z.; Chen, Liu; Chance, M. S. (1985). "High-n ideal and resistive shear Alfvén waves in tokamaks". Annals of Physics. 161 (1): 21–47. Bibcode:1985AnPhy.161...21C. doi:10.1016/0003-4916(85)90335-5. ISSN 0003-4916.
  3. ^ a b Chen, Liu (1994). "Theory of magnetohydrodynamic instabilities excited by energetic particles in tokamaks". Physics of Plasmas. 1 (5): 1519–1522. Bibcode:1994PhPl....1.1519C. doi:10.1063/1.870702. ISSN 1070-664X.
  4. ^ a b Chen, Liu; Hasegawa, Akira (1974). "A theory of long‐period magnetic pulsations: 1. Steady state excitation of field line resonance". Journal of Geophysical Research. 79 (7): 1024–1032. Bibcode:1974JGR....79.1024C. doi:10.1029/JA079i007p01024. ISSN 2156-2202.
  5. ^ a b Chen, Liu; Hasegawa, Akira (1974). "Plasma heating by spatial resonance of Alfvén wave". The Physics of Fluids. 17 (7): 1399–1403. Bibcode:1974PhFl...17.1399C. doi:10.1063/1.1694904. ISSN 0031-9171.
  6. ^ a b Chen, Liu; White, R. B.; Rosenbluth, M. N. (1984). "Excitation of Internal Kink Modes by Trapped Energetic Beam Ions". Physical Review Letters. 52 (13): 1112–1115. Bibcode:1984PhRvL..52.1122C. doi:10.1103/PhysRevLett.52.1122. ISSN 0031-9007.
  7. ^ a b Frieman, E. A.; Chen, Liu (1982). "Nonlinear Gyrokinetic Equations for Low-Frequency Electromagnetic Waves in General Plasma Equilibrium". The Physics of Fluids. 25 (3): 502–508. Bibcode:1982PhFl...25..502F. doi:10.1063/1.863762. ISSN 0031-9171.
  8. ^ a b Chen, Liu; Zonca, F. (2016). "Physics of Alfvén waves and energetic particles in burning plasmas". Reviews of Modern Physics. 88 (1): 0150088. Bibcode:2016RvMP...88a5008C. doi:10.1103/RevModPhys.88.015008. ISSN 0034-6861.
  9. ^ Chen, Liu; Lin, Z.; White, R. (2000). "Excitation of zonal flow by drift waves in toroidal plasmas". Physics of Plasmas. 7 (8): 3129–3132. Bibcode:2000PhPl....7.3129C. doi:10.1063/1.874222. ISSN 1070-664X. S2CID 119538645.
  10. ^ Dr. Chen Liu Appointed as a Kuang-piu Chair Professor of Zhejiang University
  11. ^ 2004 Award for Excellence in Plasma Physics Research Recipient - Liu Chen
  12. ^ Liu Chen: recipient of the 2008 European Physical Society Plasma Physics Division Hannes Alfv´en Prize
  13. ^ "Professor Liu Chen". phoenix.ps.uci.edu. Retrieved 2019-07-26.
  14. ^ The 2019 Subramanyan Chandrasekhar Prize in Plasma Physics
  15. ^ Chung, Jake. "Top research institute selects 19 new members". taipeitimes.com. Taipei Times. Retrieved 7 July 2022.
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