Biography:Samuel C. C. Ting

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Short description: Nobel prize winning physicist
Samuel Chao Chung Ting
Samuel Ting 2023.jpg
Ting in 2023
Born (1936-01-27) January 27, 1936 (age 88)
Ann Arbor, Michigan, U.S.
Alma materUniversity of Michigan (dual BSE, PhD)
Known forDiscovery of the J/ψ particle
Founder of the Alpha Magnetic Spectrometer experiment
Spouse(s)Kay Kuhne (divorced)
Susan Marks
Children3
AwardsErnest Orlando Lawrence Award (1975)
Nobel Prize for Physics (1976)
Eringen Medal (1977)
De Gasperi Award (1988)
Gold Medal for Science from Brescia (1988)
NASA Public Service Medal (2001)
Scientific career
FieldsPhysics
InstitutionsColumbia University
Massachusetts Institute of Technology
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WebsiteSamuel Ting

Samuel Chao Chung Ting (Chinese: 丁肇中; pinyin: Dīng Zhàozhōng, born January 27, 1936) is an American physicist who, with Burton Richter, received the Nobel Prize in 1976 for discovering the subatomic J/ψ particle.

More recently he has been the principal investigator in research conducted with the Alpha Magnetic Spectrometer, a device installed on the International Space Station in 2011.

Biography

Ting was born on January 27, 1936, in Ann Arbor, Michigan to first generation Chinese immigrant parents, who both hail from Ju County, Shandong province.[1] His parents, Kuan-hai Ting and Tsun-ying Wong, met and married as graduate students at the University of Michigan.[2]

Ting's parents returned to China two months after his birth[2] where Ting was homeschooled by his parents throughout WWII.[3] After the communist takeover of the mainland that forced the nationalist government to flee to Taiwan, Ting moved to the island in 1949. He would live in Taiwan from 1949 to 1956 and conducted most of his formal schooling there.[3] His father started to teach engineering and his mother would teach psychology at National Taiwan University (NTU). Ting attended and finished Middle School in Taiwan.[4][5]

In 1956, Ting, who barely spoke English,[3] returned to the United States at the age of 20 and attended the University of Michigan. There, he studied engineering, mathematics, and physics. He received Bachelor of Science in Engineering degrees in mathematics and in physics in 1959 and a Doctor of Philosophy degree in physics in 1962.[6][7]

In 1963, Ting worked at the European Organization for Nuclear Research (CERN). From 1965, he taught at Columbia University in the City of New York and worked at the Deutsches Elektronen-Synchrotron (DESY) in Germany . Since 1969, Ting has been a professor at the Massachusetts Institute of Technology (MIT).

Ting received the Ernest Orlando Lawrence Award in 1976, Nobel Prize in Physics in 1976, Eringen Medal in 1977, DeGaspari Award in Science from the Government of Italy in 1988, Gold Medal for Science from Brescia, Italy in 1988, and the NASA Public Service Medal in 2001.[4]

Nobel Prize

In 1976, Ting was awarded the Nobel Prize in Physics, which he shared with Burton Richter of the Stanford Linear Accelerator Center, for the discovery of the J/ψ meson nuclear particle. They were chosen for the award, in the words of the Nobel committee, "for their pioneering work in the discovery of a heavy elementary particle of a new kind."[8] The discovery was made in 1974 when Ting was heading a research team at MIT exploring new regimes of high energy particle physics.[9]

Ting gave his Nobel Prize acceptance speech in Mandarin. Although there had been Chinese Nobel Prize recipients before (Tsung-Dao Lee and Chen Ning Yang), none had previously delivered the acceptance speech in Chinese. In his Nobel banquet speech, Ting emphasized the importance of experimental work:

In reality, a theory in natural science cannot be without experimental foundations; physics, in particular, comes from experimental work. I hope that awarding the Nobel Prize to me will awaken the interest of students from the developing nations so that they will realize the importance of experimental work.[10]

Alpha Magnetic Spectrometer

Ting after he delivered a lecture on the topic of Alpha Magnetic Spectrometer (AMS) in Shandong University in October 2011

In 1995, not long after the cancellation of the Superconducting Super Collider project had severely reduced the possibilities for experimental high-energy physics on Earth, Ting proposed the Alpha Magnetic Spectrometer, a space-borne cosmic-ray detector. The proposal was accepted and he became the principal investigator and has been directing the development since then. A prototype, AMS-01, was flown and tested on Space Shuttle mission STS-91 in 1998. The main mission, AMS-02, was then planned for launch by the Shuttle and mounting on the International Space Station.[11]

This project is a massive $2 billion undertaking involving 500 scientists from 56 institutions and 16 countries.[12] After the 2003 Space Shuttle Columbia disaster, NASA announced that the Shuttle was to be retired by 2010 and that AMS-02 was not on the manifest of any of the remaining Shuttle flights. Dr. Ting was forced to (successfully) lobby the United States Congress and the public to secure an additional Shuttle flight dedicated to this project. Also during this time, Ting had to deal with numerous technical problems in fabricating and qualifying the large, extremely sensitive and delicate detector module for space.[13] AMS-02 was successfully launched on Shuttle mission STS-134 on May 16, 2011, and was installed on the International Space Station on May 19, 2011.[14][15]

Research

  • Discovery of nuclear anti-matter (the anti-deuteron).[16]
  • Measuring the size of the electron family (the electron, the muon, and the tau) showing that the electron family has zero size (with a radius smaller than 10−17 cm).[17]
  • Precision study of light rays and massive light rays showing that light rays and massive light rays (vector mesons) can transform into each other at high energies and providing a critical verification of the quark model.[18][19]
  • Precision measurement of the radius of the atomic nuclei.[20]
  • Discovery of a new kind of matter (the J particle)[21] at the Brookhaven National Laboratory. The Nobel Prize was awarded to Ting for this discovery.
  • Discovery of the gluon (the particle responsible for transmitting the nuclear force).[22]
  • A systematic study of the properties of gluons.[23]
  • A precision measurement of muon charge asymmetry, demonstrating for the first time the validity of the Standard Electroweak Model (Steven Weinberg, Sheldon Glashow and Abdus Salam).[24]
  • Determination of the number of electron families and neutrino species in the Universe and the precision verification of the Electroweak Unification Theory.[25]
  • Proposed, constructed and leads the Alpha Magnetic Spectrometer (AMS) experiment on the International Space Station involving the participation of a 16 nation collaboration searching for the existence of antimatter, the origin of dark matter and the properties of cosmic rays.[26][27]
  • Development of the first large superconducting magnet for space application.
  • AMS results, based on nine years in space and more than 160 billion cosmic rays, have changed our understanding of the cosmos.[28][29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44]

Honors and awards

Major Awards

  • Nobel Prize for Physics (1976)
  • Ernest Orlando Lawrence Award (U.S. government)
  • Eringen Medal (the Society of Engineering Science)
  • DeGaspari Award in Science (Italian government)
  • NASA Public Service Medal
  • Erice Prize for Peace (World Federation of Scientists)
  • Gold Medal for Science (Italy)
  • Award for Compelling Results in Physical Sciences (2017, NASA)
  • Golden Plate Award of the American Academy of Achievement[45]
  • Golden Leopard Award for Excellence, Taormina, Italy

Member or Foreign Member of Scientific Academies

  • United States National Academy of Sciences
  • American Academy of Arts and Sciences
  • Soviet Academy of Science
  • Russian Academy of Sciences
  • Deutsche Akademie der Naturforscher Leopoldina (Germany)
  • Spanish Royal Academy of Sciences
  • Hungarian Academy of Sciences
  • Pakistan Academy of Sciences
  • Academia Sinica
  • Chinese Academy of Sciences
  • Honorary Fellow of the Tata Institute of Fundamental Research

Doctor Honoris Causa degrees

  • University of Bologna
  • Moscow State University
  • University of Bucharest
  • National Tsing Hua University (Taiwan)
  • National Chiao Tung University (Taiwan)
  • Rheinisch-Westfälische Technische Hochschule Aachen
  • University of Michigan
  • Columbia University
  • Gustavus Adolphus College
  • University of Science and Technology of China
  • Hong Kong University of Science and Technology
  • National Central University
  • Hong Kong Baptist University
  • Chinese University of Hong Kong

Personal life

Ting lived in a turbulent age during his childhood and his family was a big influence on him. In his biographical for the Nobel Prize, he recalled:

Since both my parents were working, I was brought up by my maternal grandmother. My maternal grandfather lost his life during the first Chinese Revolution. After that, at the age of thirty-three, my grandmother decided to go to school, became a teacher, and brought my mother up alone. When I was young I often heard stories from my mother and grandmother recalling the difficult lives they had during that turbulent period and the efforts they made to provide my mother with a good education. Both of them were daring, original, and determined people, and they have left an indelible impression on me.
When I was twenty years old I decided to return to the United States for a better education. My parents' friend, G.G. Brown, Dean of the School of Engineering, University of Michigan, told my parents I would be welcome to stay with him and his family. At that time I knew very little English and had no idea of the cost of living in the United States. In China, I had read that many American students go through college on their own resources. I informed my parents that I would do likewise. I arrived at the Detroit airport on 6 September 1956 with $100, which at the time seemed more than adequate. I was somewhat frightened, did not know anyone, and communication was difficult.[5]

Ting is the eldest son of his family. He has one brother, Ting Chao-hua (丁肇華) and one sister, Ting Chao-min (丁肇民). In an interview with China Central Television, he explained that the combination of his siblings' and his name is the first three characters of "中華民國" (Republic of China). His parents named them after the country to commemorate their grandfather, who was a martyr in the Xinhai Revolution.[46]

In 1960, Ting married Kay Louise Kuhne, an architect, and together they had two daughters, Jeanne Ting Chowning and Amy Ting. In 1985 he married Dr. Susan Carol Marks, and they had one son, Christopher, born in 1986.[5]

Selected publications

See also

References

  1. "Samuel Ting". Physics Today. 2016. doi:10.1063/PT.5.031142. https://physicstoday.scitation.org/do/10.1063/PT.5.031142/full/. Retrieved May 27, 2020. 
  2. 2.0 2.1 Ng, Franklin (1995). The Asian American encyclopedia. Marshall Cavendish. pp. 1, 490. ISBN 978-1-85435-684-0. https://archive.org/details/asianamericanenc05ngfr. 
  3. 3.0 3.1 3.2 "Samuel C.C. Ting". MIT. 2011-09-06. https://infinite.mit.edu/video/samuel-cc-ting-0. 
  4. 4.0 4.1 "About The Programs - Personal Journeys: Samuel C.C. Ting". 2003. https://www.pbs.org/becomingamerican/ap_pjourneys_bio2.html. 
  5. 5.0 5.1 5.2 "Samuel C.C. Ting - Biographical". Nobel Foundation. 1976. https://www.nobelprize.org/nobel_prizes/physics/laureates/1976/ting-bio.html. 
  6. "Samuel C.C. Ting » MIT Physics" (in en-US). https://physics.mit.edu/faculty/samuel-ting/. 
  7. McAlpine, Kate (2018-02-28). "Q&A with Samuel Ting" (in en-US). https://news.engin.umich.edu/2018/02/qa-with-samuel-ting/. 
  8. "The Nobel Prize in Physics 1976". nobelprize.org. https://nobelprize.org/nobel_prizes/physics/laureates/1976/. 
  9. Aubert, J. J. (1974). "Experimental Observation of a Heavy Particle J". Physical Review Letters 33 (23): 1404–1406. doi:10.1103/PhysRevLett.33.1404. Bibcode1974PhRvL..33.1404A. 
  10. "Samuel C.C.Ting - Banquet Speech". December 10, 1976. https://www.nobelprize.org/nobel_prizes/physics/laureates/1976/ting-speech.html. 
  11. "Alpha Magnetic Spectrometer - 02 (AMS-02)". NASA. August 21, 2009. http://www.nasa.gov/mission_pages/station/science/experiments/AMS-02.html. 
  12. William Harwood (May 19, 2011). "Endeavour astronauts install $2 billion cosmic ray detector". cbsnews.com. http://www.cbsnews.com/network/news/space/home/spacenews/files/6fcbc1ea9b60fae967984afc741cb2e3-245.html. 
  13. "NASA Presents: AMS - The Fight for Flight". https://www.imdb.com/title/tt7475708/. 
  14. Jeremy Hsu (September 2, 2009). "Space Station Experiment to Hunt Antimatter Galaxies". Space.com. http://www.space.com/businesstechnology/090902-tw-antimatter-hunter.html. 
  15. Overbye, Dennis (November 17, 2010). "A Costly Quest for the Dark Heart of the Cosmos (New York Times, November 16, 2010)". The New York Times. https://www.nytimes.com/2010/11/17/science/space/17dark.html. 
  16. Dorfan, D. E; Eades, J.; Lederman, L. M.; Lee, W.; Ting, C. C. (June 1965). "Observation of Antideuterons". Phys. Rev. Lett. 14 (24): 1003–1006. doi:10.1103/PhysRevLett.14.1003. Bibcode1965PhRvL..14.1003D. Dorfan, D. E.; Eades, J.; Lederman, L. M.; Lee, W.; Ting, C. C. (1965). "Observation of Antideuterons". Phys. Rev. Lett. 14 (24): 1003–1006. doi:10.1103/PhysRevLett.14.1003. Bibcode1965PhRvL..14.1003D. 
  17. Asbury, J. G.; Bertram, W. K.; Becker, U.; Joos, P.; Rohde, M.; Smith, A. J. S.; Friedlander, S.; Jordan, C. et al. (1967). "Validity of Quantum Electrodynamics at Small Distances". Physical Review Letters 18 (2): 65–70. doi:10.1103/PhysRevLett.18.65. ISSN 0031-9007. Bibcode1967PhRvL..18...65A. http://bib-pubdb1.desy.de/record/321849/files/PhysRevLett.18.65.pdf. Retrieved September 27, 2020. 
  18. Asbury, J. G.; Becker, U.; Bertram, William K.; Joos, P.; Rohde, M.; Smith, A. J. S.; Jordan, C. L.; Ting, Samuel C. C. (1967). "Leptonic Decays of Vector Mesons: The Branching Ratio of the Electron-Positron Decay Mode of the Rho Meson". Physical Review Letters 19 (15): 869–872. doi:10.1103/PhysRevLett.19.869. ISSN 0031-9007. Bibcode1967PhRvL..19..869A. http://bib-pubdb1.desy.de/record/321846/files/PhysRevLett.19.869.pdf. Retrieved September 24, 2019. 
  19. Asbury, J. G.; Bertram, William K.; Becker, U.; Joos, P.; Rohde, M.; Smith, A. J. S.; Friedlander, S.; Jordan, C. L. et al. (1967). "Photoproduction of Wide-Angle Electron-Positron Pairs at High Energies". Physical Review 161 (5): 1344–1355. doi:10.1103/PhysRev.161.1344. ISSN 0031-899X. Bibcode1967PhRv..161.1344A. http://bib-pubdb1.desy.de/search?p=id:%22PUBDB-2017-02779%22. Retrieved September 27, 2020. 
  20. Alvensleben, H. (1968). "Validity of Quantum Electrodynamics at Extremely Small Distances". Physical Review Letters 21 (21): 1501–1503. doi:10.1103/PhysRevLett.21.1501. ISSN 0031-9007. Bibcode1968PhRvL..21.1501A. https://bib-pubdb1.desy.de/record/322015. Retrieved September 27, 2020. 
  21. Aubert, J. J. (1974). "Experimental Observation of a Heavy Particle J". Phys. Rev. Lett. 33 (23): 1404–1406. doi:10.1103/PhysRevLett.33.1404. Bibcode1974PhRvL..33.1404A. 
  22. Barber, D. (1979). "Discovery of Three-Jet Events and a Test of Quantum Chromodynamics at PETRA". Physical Review Letters 43 (12): 830–833. doi:10.1103/PhysRevLett.43.830. ISSN 0031-9007. Bibcode1979PhRvL..43..830B. 
  23. Barber, D.P. (1979). "Tests of quantum chromodynamics and a direct measurement of the strong coupling constant αs at √s=30 GeV". Physics Letters B 89 (1): 139–144. doi:10.1016/0370-2693(79)90092-3. ISSN 0370-2693. Bibcode1979PhLB...89..139B. 
  24. Barber, D.P. (1980). "Unique solution for the weak neutral current coupling constants in purely leptonic interactions". Physics Letters B 95 (1): 149–153. doi:10.1016/0370-2693(80)90420-7. ISSN 0370-2693. Bibcode1980PhLB...95..149B. 
  25. Adeva, B. (1990). "Measurement of Z0 decays to hadrons, and a precise determination of the number of neutrino species". Physics Letters B 237 (1): 136–146. doi:10.1016/0370-2693(90)90476-M. ISSN 0370-2693. Bibcode1990PhLB..237..136A. 
  26. Ahlen, S. (1994). "An antimatter spectrometer in space". Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 350 (1–2): 351–367. doi:10.1016/0168-9002(94)91184-3. ISSN 0168-9002. Bibcode1994NIMPA.350..351A. 
  27. Aguilar (2002). "The Alpha Magnetic Spectrometer (AMS) on the International Space Station: Part I – results from the test flight on the space shuttle". Physics Reports 366 (6): 331–405. doi:10.1016/S0370-1573(02)00013-3. ISSN 0370-1573. Bibcode2002PhR...366..331A. 
  28. Aguilar, M. (2013). "First Result from the Alpha Magnetic Spectrometer on the International Space Station: Precision Measurement of the Positron Fraction in Primary Cosmic Rays of 0.5–350 GeV". Physical Review Letters 110 (14): 141102. doi:10.1103/PhysRevLett.110.141102. ISSN 0031-9007. PMID 25166975. Bibcode2013PhRvL.110n1102A. 
  29. Accardo, L. (2014). "High Statistics Measurement of the Positron Fraction in Primary Cosmic Rays of 0.5–500 GeV with the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 113 (12): 121101. doi:10.1103/PhysRevLett.113.121101. ISSN 0031-9007. PMID 25279616. Bibcode2014PhRvL.113l1101A. 
  30. Aguilar, M. (2014). "Electron and Positron Fluxes in Primary Cosmic Rays Measured with the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 113 (12): 121102. doi:10.1103/PhysRevLett.113.121102. ISSN 0031-9007. PMID 25279617. Bibcode2014PhRvL.113l1102A. 
  31. Aguilar, M. (2014). "Precision Measurement of the (e++e−) Flux in Primary Cosmic Rays from 0.5 GeV to 1 TeV with the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 113 (22): 221102. doi:10.1103/PhysRevLett.113.221102. ISSN 0031-9007. PMID 25494065. Bibcode2014PhRvL.113v1102A. 
  32. Aguilar, M. (2015). "Precision Measurement of the Proton Flux in Primary Cosmic Rays from Rigidity 1 GV to 1.8 TV with the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 114 (17): 171103. doi:10.1103/PhysRevLett.114.171103. ISSN 0031-9007. PMID 25978222. Bibcode2015PhRvL.114q1103A. 
  33. Aguilar, M. (2015). "Precision Measurement of the Helium Flux in Primary Cosmic Rays of Rigidities 1.9 GV to 3 TV with the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 115 (21): 211101. doi:10.1103/PhysRevLett.115.211101. ISSN 0031-9007. PMID 26636836. Bibcode2015PhRvL.115u1101A. 
  34. Aguilar, M. (2016). "Antiproton Flux, Antiproton-to-Proton Flux Ratio, and Properties of Elementary Particle Fluxes in Primary Cosmic Rays Measured with the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 117 (9): 091103. doi:10.1103/PhysRevLett.117.091103. ISSN 0031-9007. PMID 27610839. Bibcode2016PhRvL.117i1103A. 
  35. Aguilar, M. (2016). "Precision Measurement of the Boron to Carbon Flux Ratio in Cosmic Rays from 1.9 GV to 2.6 TV with the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 117 (23): 231102. doi:10.1103/PhysRevLett.117.231102. ISSN 0031-9007. PMID 27982618. Bibcode2016PhRvL.117w1102A. 
  36. Aguilar, M. (2017). "Observation of the Identical Rigidity Dependence of He, C, and O Cosmic Rays at High Rigidities by the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 119 (25): 251101. doi:10.1103/PhysRevLett.119.251101. ISSN 0031-9007. PMID 29303302. Bibcode2017PhRvL.119y1101A. 
  37. Aguilar, M. (2018). "Observation of New Properties of Secondary Cosmic Rays Lithium, Beryllium, and Boron by the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 120 (2): 021101. doi:10.1103/PhysRevLett.120.021101. ISSN 0031-9007. PMID 29376729. Bibcode2018PhRvL.120b1101A. 
  38. Aguilar, M. (2018). "Observation of Fine Time Structures in the Cosmic Proton and Helium Fluxes with the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 121 (5): 051101. doi:10.1103/PhysRevLett.121.051101. ISSN 0031-9007. PMID 30118264. Bibcode2018PhRvL.121e1101A. 
  39. Aguilar, M. (2018). "Observation of Complex Time Structures in the Cosmic-Ray Electron and Positron Fluxes with the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 121 (5): 051102. doi:10.1103/PhysRevLett.121.051102. ISSN 0031-9007. PMID 30118287. Bibcode2018PhRvL.121e1102A. 
  40. Aguilar, M. (2018). "Precision Measurement of Cosmic-Ray Nitrogen and its Primary and Secondary Components with the Alpha Magnetic Spectrometer on the International Space Station". Physical Review Letters 121 (5): 051103. doi:10.1103/PhysRevLett.121.051103. ISSN 0031-9007. PMID 30118280. Bibcode2018PhRvL.121e1103A. 
  41. Aguilar, M. (2019). "Towards Understanding the Origin of Cosmic-Ray Positrons". Physical Review Letters 122 (4): 041102. doi:10.1103/PhysRevLett.122.041102. ISSN 0031-9007. PMID 30768313. Bibcode2019PhRvL.122d1102A. 
  42. Aguilar, M. (2019). "Towards Understanding the Origin of Cosmic-Ray Electrons". Physical Review Letters 122 (10): 101101. doi:10.1103/PhysRevLett.122.101101. ISSN 0031-9007. PMID 30932626. Bibcode2019PhRvL.122j1101A. 
  43. Aguilar, M. (2019). "Properties of Cosmic Helium Isotopes Measured by the Alpha Magnetic Spectrometer". Physical Review Letters 123 (18): 181102. doi:10.1103/PhysRevLett.123.181102. ISSN 0031-9007. PMID 31763896. Bibcode2019PhRvL.123r1102A. 
  44. Aguilar, M. (2020). "Properties of Neon, Magnesium, and Silicon Primary Cosmic Rays Results from the Alpha Magnetic Spectrometer". Physical Review Letters 124 (21): 211102. doi:10.1103/PhysRevLett.124.211102. ISSN 0031-9007. PMID 32530660. Bibcode2020PhRvL.124u1102A. 
  45. "Golden Plate Awardees of the American Academy of Achievement". American Academy of Achievement. https://achievement.org/our-history/golden-plate-awards/#science-exploration. 
  46. "丁肇中(下)" (in zh-hans). 《大家》. Renmin Ribao. http://tv.people.com.cn/GB/39805/10166135.html. 

External links



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