Yang Chen-Ning

Yang Chen-Ning or Chen-Ning Yang (Chinese: 杨振宁; pinyin: Yáng Zhènníng; born 1 October 1922),[1] also known as C. N. Yang or by the English name Frank Yang,[2] is a Chinese theoretical physicist who made significant contributions to statistical mechanics, integrable systems, gauge theory, and both particle physics and condensed matter physics. He and Tsung-Dao Lee received the 1957 Nobel Prize in Physics[3] for their work on parity non-conservation of weak interaction. The two proposed that one of the basic quantum-mechanics laws, the conservation of parity, is violated in the so-called weak nuclear reactions, those nuclear processes that result in the emission of beta or alpha particles. Yang is also well known for his collaboration with Robert Mills in developing non-abelian gauge theory, widely known as the Yang–Mills theory.

In this Chinese name, the family name is Yang.
Yang Chen-Ning
杨振宁
Yang in 1957
Born
楊振寧

(1922-10-01) 1 October 1922[1]
Hefei, Republic of China
CitizenshipChina
Alma mater
Known for
 
Spouse(s)
Chih-Li Tu (杜致禮)
(m. 1950; died 2003)

Weng Fan (翁帆)
(m. 2004)
Children3
Awards
  • Nobel Prize in Physics (1957)
  • Rumford Prize (1980)
  • National Medal of Science (1986)
  • Benjamin Franklin Medal (1993)
  • Albert Einstein Medal (1995)
  • Bogolyubov Prize (1996)
  • Lars Onsager Prize (1999)
Scientific career
Fields
Institutions
Doctoral advisorEdward Teller
Other academic advisorsEnrico Fermi
Doctoral studentsAlexander Wu Chao
Bill Sutherland
Chinese name
Simplified Chinese杨振宁
Traditional Chinese楊振寧
Modern physics

Schrödinger and Einstein field equations
Founders
Max Planck  · Albert Einstein  · Niels Bohr  · Max Born  · Werner Heisenberg  · Erwin Schrödinger  · Pascual Jordan  · Wolfgang Pauli  · Paul Dirac  · Ernest Rutherford  · Louis de Broglie  · Satyendra Nath Bose
Concepts
Topology · Space · Time · Energy · Matter · Work
Randomness · Information · Entropy · Mind
Light · Particle · Wave
Branches
Applied · Experimental · Theoretical
Mathematical  · Philosophy of physics
Quantum mechanics (Quantum field theory · Quantum information · Quantum computation)
Electromagnetism ·
Weak interaction · Electroweak interaction
Strong interaction
Atomic · Particle · Nuclear
Atomic, molecular, and optical
Condensed matter · Statistical
Complex systems · Non-linear dynamics · Biophysics
Neurophysics
Plasma physics
Special relativity · General relativity
Astrophysics · Cosmology
Theories of gravitation
Quantum gravity · Theory of everything
Scientists
Witten · Röntgen · Becquerel · Lorentz · Planck · Curie · Wien · Skłodowska-Curie · Sommerfeld · Rutherford · Soddy · Onnes · Einstein · Wilczek · Born · Weyl · Bohr · Kramers · Schrödinger · de Broglie · Laue · Bose · Compton · Pauli · Walton · Fermi · van der Waals · Heisenberg · Dyson · Zeeman · Moseley · Hilbert · Gödel · Jordan · Dirac · Wigner · Hawking · P. W. Anderson · Lemaître · Thomson · Poincaré · Wheeler · Penrose · Millikan · Nambu · von Neumann · Higgs · Hahn · Feynman · Yang · Lee · Lenard · Salam · 't Hooft · Veltman · Bell · Gell-Mann · J. J. Thomson  · Raman · Bragg · Bardeen · Shockley · Chadwick · Lawrence · Zeilinger · Goudsmit · Uhlenbeck
Categories
Modern physics

Biography

Yang was born in Hefei, Anhui, China; his father, Ko-Chuen Yang (楊克純; 1896–1973), was a mathematician, and his mother, Meng Hwa Loh Yang (羅孟華), was a housewife. Yang attended elementary school and high school in Beijing, and in the autumn of 1937 his family moved to Hefei after the Japanese invaded China. In 1938 they moved to Kunming, Yunnan, where National Southwestern Associated University (Lianda), was located. In the same year, as a second year student, Yang passed the entrance examination and studied at Lianda. He received his bachelor's degree in 1942,[2] with his thesis on the application of group theory to molecular spectra, under the supervision of Ta-You Wu. He continued to study graduate courses there for two years under the supervision of Wang Zhuxi, working on statistical mechanics. In 1944 he received his master's degree from Tsinghua University, which had moved to Kunming during the Sino-Japanese War (1937–1945).[2] Yang was then awarded a scholarship from the Boxer Indemnity Scholarship Program, set up by the United States government using part of the money China had been forced to pay following the Boxer Rebellion. His departure for the United States was delayed for one year, during which time he taught in a middle school as a teacher and studied field theory.

From 1946, Yang studied with Edward Teller (1908–2003) at the University of Chicago, where he received his doctorate in 1948. He remained at the University of Chicago for a year as an assistant to Enrico Fermi. In 1949 he was invited to do his research at the Institute for Advanced Study in Princeton, New Jersey, where he began a period of fruitful collaboration with Tsung-Dao Lee. He was made a permanent member of the Institute in 1952, and full professor in 1955. In 1963, Princeton University Press published his textbook, Elementary Particles. In 1965 he moved to Stony Brook University, where he was named the Albert Einstein Professor of Physics and the first director of the newly founded Institute for Theoretical Physics. Today this institute is known as the C. N. Yang Institute for Theoretical Physics.

He retired from Stony Brook University in 1999, assuming the title Emeritus Professor. In 2010, Stony Brook University honored Yang's contributions to the university by naming its newest dormitory building C. N. Yang Hall.[4]

He has been elected a Fellow of the American Physical Society, the Chinese Academy of Sciences, the Academia Sinica, the Russian Academy of Sciences, and the Royal Society. He was an elected member of the American Academy of Arts and Sciences,[5] the American Philosophical Society,[6] and the United States National Academy of Sciences.[7] He was awarded honorary doctorate degrees by Princeton University (1958), Moscow State University (1992), and the Chinese University of Hong Kong (1997).

Yang visited the Chinese mainland in 1971 for the first time after the thaw in China–US relations, and has subsequently worked to help the Chinese physics community rebuild the research atmosphere which was destroyed by the radical political movements during the Cultural Revolution. After retiring from Stony Brook he returned as an honorary director of Tsinghua University, Beijing, where he is the Huang Jibei-Lu Kaiqun Professor at the Center for Advanced Study (CASTU). He is also one of the two Shaw Prize Founding Members and is a Distinguished Professor-at-Large at the Chinese University of Hong Kong.

Personal life

Yang married Chih-li Tu (pinyin: Dù Zhìlǐ), a teacher, in 1950 and has two sons and a daughter with her: Franklin Jr., Gilbert and Eulee. His father-in-law was the Kuomintang general Du Yuming. Some scholars suspect that Du was promoted to a high-ranking position in the Chinese People's Political Consultative Conference in order to convince Yang to return to China after seeking refuge in the US. Tu died in October 2003, and in December 2004 the then 82-year-old Yang caused controversy by marrying the then 28-year-old Weng Fan (pinyin: Wēng Fān).[8] On 1 October 2022, Yang became a centenarian.[9]

Academic achievements
Quantum field theory
Feynman diagram
History
Background
Symmetries
  • Symmetry in quantum mechanics
  • C-symmetry
  • P-symmetry
  • T-symmetry
  • Lorentz symmetry
  • Poincaré symmetry
  • Gauge symmetry
  • Explicit symmetry breaking
  • Spontaneous symmetry breaking
  • Noether charge
  • Topological charge
Tools
  • Anomaly
  • Background field method
  • BRST quantization
  • Correlation function
  • Crossing
  • Effective action
  • Effective field theory
  • Expectation value
  • Feynman diagram
  • Lattice field theory
  • LSZ reduction formula
  • Partition function
  • Propagator
  • Quantization
  • Regularization
  • Renormalization
  • Vacuum state
  • Wick's theorem
Equations
  • Dirac equation
  • Klein–Gordon equation
  • Proca equations
  • Wheeler–DeWitt equation
  • Bargmann–Wigner equations
Standard Model
Incomplete theories
Scientists
  • Anderson
  • Anselm
  • Bargmann
  • Becchi
  • Belavin
  • Berezin
  • Bethe
  • Bjorken
  • Bleuer
  • Bogoliubov
  • Brodsky
  • Brout
  • Buchholz
  • Callan
  • Coleman
  • Dashen
  • DeWitt
  • Dirac
  • Doplicher
  • Dyson
  • Englert
  • Faddeev
  • Fadin
  • Fermi
  • Feynman
  • Fierz
  • Fock
  • Fröhlich
  • Fredenhagen
  • Furry
  • Glashow
  • Gelfand
  • Gell-Mann
  • Goldstone
  • Gribov
  • Gross
  • Gupta
  • Guralnik
  • Haag
  • Heisenberg
  • Hepp
  • Higgs
  • Hagen
  • 't Hooft
  • Ivanenko
  • Jackiw
  • Jona-Lasinio
  • Jordan
  • Jost
  • Källén
  • Kendall
  • Klebanov
  • Kontsevich
  • Kuraev
  • Landau
  • Lee
  • Lehmann
  • Lipatov
  • Low
  • Lüders
  • Maiani
  • Majorana
  • Maldacena
  • Migdal
  • Mills
  • Møller
  • Naimark
  • Nambu
  • Neveu
  • Nishijima
  • Oehme
  • Oppenheimer
  • Osterwalder
  • Parisi
  • Pauli
  • Polyakov
  • Pomeranchuk
  • Popov
  • Proca
  • Rubakov
  • Ruelle
  • Salam
  • Schwarz
  • Schwinger
  • Segal
  • Seiberg
  • Semenoff
  • Shirkov
  • Skyrme
  • Stora
  • Stueckelberg
  • Sudarshan
  • Symanzik
  • Thirring
  • Tomonaga
  • Tyutin
  • Veltman
  • Virasoro
  • Ward
  • Weinberg
  • Weisskopf
  • Wentzel
  • Wess
  • Wetterich
  • Weyl
  • Wick
  • Wightman
  • Wigner
  • Wilczek
  • Wilson
  • Witten
  • Yang
  • Yukawa
  • Zamolodchikov
  • Zamolodchikov
  • Zimmermann
  • Zinn-Justin
  • Zuber
  • Zumino
Standard Model of particle physics
Elementary particles of the Standard Model
Background
Particle physics
Standard Model
Quantum field theory
Gauge theory
Spontaneous symmetry breaking
Higgs mechanism
Constituents
Electroweak interaction
Quantum chromodynamics
CKM matrix
Standard Model mathematics
Limitations
Strong CP problem
Hierarchy problem
Neutrino oscillations
Physics beyond the Standard Model
Scientists
Rutherford · Thomson · Chadwick · Bose · Sudarshan · Davis Jr. · Anderson · Fermi · Dirac · Feynman · Rubbia · Gell-Mann · Kendall · Taylor · Friedman · Powell · P. W. Anderson · Glashow · Iliopoulos · Lederman · Maiani · Meer · Cowan · Nambu · Chamberlain · Cabibbo · Schwartz · Perl · Majorana · Weinberg · Lee · Ward · Salam · Kobayashi · Maskawa · van der Meer · Mills · Yang · Yukawa · 't Hooft · Veltman · Gross · Pais · Pauli · Politzer · Reines · Schwinger · Wilczek · Cronin · Fitch · Vleck · Higgs · Englert · Brout · Hagen · Guralnik  · Kibble  · Santiago Antúnez de Mayolo · César Lattes · Zweig
Condensed matter physics
Phases · Phase transition · QCP
States of matter
Solid · Liquid · Gas · Plasma · Bose–Einstein condensate · Bose gas · Fermionic condensate · Fermi gas · Fermi liquid · Supersolid · Superfluidity · Luttinger liquid  · Time crystal
Phase phenomena
Order parameter · Phase transition · QCP
Electronic phases
Electronic band structure · Plasma · Insulator · Mott insulator · Semiconductor · Semimetal · Conductor · Superconductor · Thermoelectric · Piezoelectric · Ferroelectric · Topological insulator · Spin gapless semiconductor
Electronic phenomena
Quantum Hall effect · Spin Hall effect · Kondo effect
Magnetic phases
Diamagnet · Superdiamagnet
Paramagnet · Superparamagnet
Ferromagnet · Antiferromagnet
Metamagnet · Spin glass
Quasiparticles
Phonon · Exciton · Plasmon
Polariton · Polaron · Magnon
Soft matter
Amorphous solid · Colloid · Granular material · Liquid crystal · Polymer
Scientists
Van der Waals · Onnes · von Laue · Bragg · Debye · Bloch · Onsager · Mott · Peierls · Landau · Luttinger · Anderson · Van Vleck · Hubbard · Shockley · Bardeen · Cooper · Schrieffer · Josephson · Louis Néel · Esaki · Giaever · Kohn · Kadanoff · Fisher · Wilson · von Klitzing · Binnig · Rohrer · Bednorz · Müller · Laughlin · Störmer · Yang · Tsui · Abrikosov · Ginzburg · Leggett · Parisi
  •  Physics portal
  •  Category
Statistical mechanics
Particle statistics
  • Spin–statistics theorem
  • Identical particles
  • Maxwell–Boltzmann
  • Bose–Einstein
  • Fermi–Dirac
  • Parastatistics
  • Anyonic statistics
  • Braid statistics
Thermodynamic ensembles
  • NVE Microcanonical
  • NVT Canonical
  • µVT Grand canonical
  • NPH Isoenthalpic–isobaric
  • NPT Isothermal–isobaric
Models
  • Debye
  • Einstein
  • Ising
  • Potts
Potentials
Scientists

Yang has worked on statistical mechanics, condensed matter theory, particle physics and gauge theory/quantum field theory.

At the University of Chicago, Yang first spent twenty months working in an accelerator lab, but he later found he was not as good as an experimentalist and switched back to theory. His doctoral thesis was about angular distribution in nuclear reactions. Later he worked on particle phenomenology; a well-known work was the Fermi–Yang model treating pion meson as a bound nucleon–anti-nucleon pair. In 1956, he and Tsung Dao (T.D.) Lee proposed that in the weak interaction the parity symmetry was not conserved, Chien-shiung Wu's team at the National Bureau of Standards in Washington experimentally verified the theory. Yang and Lee received the 1957 Nobel Prize in Physics for their parity violation theory, which brought revolutionary change to the field of particle physics.[3] Yang has also worked on neutrino theory with Tsung Dao (T.D.) Lee, 1957, 1959, CT nonconservation (with Tsung Dao (T.D.) Lee and R. Oheme, 1957), electromagnetic interaction of vector mesons (with Tsung Dao (T.D.) Lee, 1962), CP nonconservation (with Wu Tai-Tsun, 1964).

Yang is also well known for his collaboration with Robert Mills in developing non-abelian gauge theory, widely known as the Yang–Mills theory. Subsequently, in the last three decades, many other prominent scientists have developed key breakthroughs to what is now known as gauge theory. In the 1970s Yang worked on the topological properties of gauge theory, collaborating with Wu Tai-Tsun to elucidate the Wu–Yang monopole. Unlike the Dirac monopole, it has no singular Dirac string. The Yang-Mills theory set the template for the Standard Model and modern physics in general, as well as the work towards a Grand Unified Theory; it was called by The Scientist, "the foundation for current understanding of how subatomic particles interact, a contribution which has restructured modern physics and mathematics."[10] The idea was generally conceived by Yang, and the novice scientist Mills assisted him in this endeavor as Mills said,

"During the academic year 1953-1954, Yang was a visitor to Brookhaven National Laboratory...I was at Brookhaven also...and was assigned to the same office as Yang. Yang, who has demonstrated on a number of occasions his generosity to physicists beginning their careers, told me about his idea of generalizing gauge invariance and we discussed it at some length...I was able to contribute something to the discussions, especially with regard to the quantization procedures, and to a small degree in working out the formalism; however, the key ideas were Yang's."[11]

Yang has had a great interest in statistical mechanics since his undergraduate time. In the 1950s and 1960s, he collaborated with Tsung Dao (T.D.) Lee and Kerson Huang, etc. and studied statistical mechanics and condensed matter theory. He studied the theory of phase transition and elucidated the Lee–Yang circle theorem, properties of quantum boson liquid, two dimensional Ising model, flux quantization in superconductors (with N. Byers, 1961), and proposed the concept of Off-Diagonal Long-Range Order (ODLRO, 1962). In 1967, he found a consistent condition for a one dimensional factorized scattering many body system, the equation was later named the Yang–Baxter equation, it plays an important role in integrable models and has influenced several branches of physics and mathematics.

Awards
Yang (seated, left) with fellow Nobel Prize winners (left to right; standing) Val Fitch, James Cronin and Samuel C. C. Ting, and (seated) Isidor Isaac Rabi
  • Nobel Prize in Physics (1957)[3]
  • Ten Outstanding Young Americans (1957)[12]
  • Rumford Prize (1980) [13]
  • National Medal of Science (1986)[14]
  • Oskar Klein Memorial Lecture and Medal (1988)[15]
  • Benjamin Franklin Medal for Distinguished Achievement in the Sciences of the American Philosophical Society (1993)[16]
  • Bower Award (1994)[17]
  • Albert Einstein Medal (1995)[18]
  • Lars Onsager Prize (1999)[19]
  • King Faisal International Prize (2001)[20]

Selected publications
Collected works
  • Yang, C. N. (1983). Selected Papers, 1945–1980, with Commentary. San Francisco, CA: W. H. Freeman & Co. ISBN 978-0-7167-1406-4.
  • Yang, Chen-Ning (2013). Selected Papers of Chen Ning Yang II: With Commentaries. Singapore: World Scientific. ISBN 978-981-4449-00-7.
Yang–Mills theory
Parity violation
Lee–Yang theorem
Byers–Yang theorem

See also
  • Yang–Mills theory
    • Wu–Yang monopole
  • Yang–Baxter equation
    • Yangian
  • Parity violation
    • Wu experiment
  • Lee–Yang theorem
  • Byers–Yang theorem
  • C. N. Yang Institute for Theoretical Physics
  • Center for Advanced Study, Tsinghua University
  • List of Chinese Nobel laureates
  • List of theoretical physicists

Bibliography
  • Interpretation of Organic Spectra, Wiley, 2011[21]

References

Citations
  1. Li, Bing-An; Deng, Yuefan. "Biography of C.N. Yang" (PDF). Retrieved 11 September 2007. His birth date was erroneously recorded as September 22, 1922 in his 1945 passport. He has since used this incorrect date on all subsequent official documents.
  2. "Chen Ning Yang - Biographical". nobelprize.org. The Nobel Prize. Retrieved 29 June 2022.
  3. "The Nobel Prize in Physics 1957". The Nobel Foundation. Retrieved 1 November 2014.
  4. "Exclusive: New Dorm Likely to Honor Nobel Laureate". Thinksb.com. 18 March 2010. Archived from the original on 17 July 2011. Retrieved 6 May 2011.
  5. "Chen Ning Yang". American Academy of Arts & Sciences. Retrieved 11 October 2022.
  6. "APS Member History". search.amphilsoc.org. Retrieved 11 October 2022.
  7. "Chen N. Yang". www.nasonline.org. Retrieved 11 October 2022.
  8. "Chen Ning Yang, 82, to marry a 28-year-old woman". China Daily. 16 December 2014.
  9. "Celebrating Chen Ning Yang at 100 - IAS News | Institute for Advanced Study". www.ias.edu. 21 September 2022. Retrieved 30 September 2022.
  10. Ravo, Nick (2 October 1999). "Robert L. Mills, 72, Theorist In Realm of Subatomic Physics". The New York Times.
  11. Gray, Jeremy; Wilson, Robin (6 December 2012). Mathematical Conversations: Selections from The Mathematical Intelligencer. Springer Science & Business Media. p. 63. ISBN 9781461301950.
  12. Richards, Allen (1957). "Chen Ning Yang and other recipients of the USJCC's 1957 Ten Outstanding Young Men". Institute for Advanced Study. Retrieved 29 June 2022.
  13. "Past Prizes". American Academy of Arts & Sciences. Retrieved 29 June 2022.
  14. "The President's National Medal of Science: Recipient Details | NSF - National Science Foundation". www.nsf.gov. National Science Foundation. Retrieved 29 June 2022.
  15. "Earlier Lectures - Oskar Klein Centre". www.okc.albanova.se. Stockholm University. Retrieved 29 June 2022.
  16. "Benjamin Franklin Medal for Distinguished Achievement in the Sciences Recipients". American Philosophical Society. Retrieved 26 November 2011.
  17. "Chen Ning Yang". The Franklin Institute. 15 January 2014. Retrieved 29 June 2022.
  18. "Einstein Society". www.einstein-bern.ch. Retrieved 29 June 2022.
  19. "1999 Lars Onsager Prize Recipient". www.aps.org. American Physical Society. Retrieved 29 June 2022.
  20. "King Faisal Prize - Professor Chen Ning Yang". kingfaisalprize.org. King Faisal Prize. Retrieved 29 June 2022.
  21. Ning, Yong-Cheng. (2011). Interpretation of organic spectra. Hoboken, NJ: Wiley. ISBN 978-0-470-82518-1. OCLC 729726196.

Sources
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.