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         Ting Samuel C C:     more detail
  1. Biography - Ting, Samuel C. C. (1936-): An article from: Contemporary Authors by Gale Reference Team, 2002-01-01
  2. Chinese Physicists: Wang Ganchang, Tsung-Dao Lee, Chien-Shiung Wu, Chen Ning Yang, Xiao-Gang Wen, Samuel C. C. Ting, Shu Xingbei, Cao Chong
  3. Taiwanese Physicists: Shen Chun-Shan, Samuel C. C. Ting, Ta-You Wu, Wei-Tou Ni
  4. National Cheng Kung University Alumni: Lung Ying-Tai, Samuel C. C. Ting, Pai Hsien-Yung, Chung Laung Liu, Chu Ching-Wu, Wu Po-Hsiung
  5. Hadron and photon production of J particles and the origin of J particles: A rapporteur's summary at the EPS International Conference on High Energy Physics, Palermo, Sicily, June 1975 by Samuel C. C Ting, 1975
  6. Electromagnetic interactions;: A rapporteur's summary given at the XIVth International Conference on High Energy Physics at Vienna, September 1968 by Samuel C. C Ting, 1968

1. Samuel C. C. Ting - Autobiography
samuel CC ting – Autobiography. 1936 in Ann Arbor, Michigan, the first of threechildren of Kuan Hai ting, a professor From nobel Lectures, Physics 19711980.
http://www.nobel.se/physics/laureates/1976/ting-autobio.html
I was born on 27 January 1936 in Ann Arbor, Michigan, the first of three children of Kuan Hai Ting, a professor of engineering, and Tsun-Ying Wang, a professor of psychology. My parents had hoped that I would be born in China, but as I was born prematurely while they were visiting the United States, by accident of birth I became an American citizen. Two months after my birth we returned to China. Owing to wartime conditions I did not have a traditional education until I was twelve. Nevertheless, my parents were always associated with universities, and I thus had the opportunity of meeting the many accomplished scholars who often visited us. Perhaps because of this early infiuence I have always had the desire to be associated with university life.
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.

2. Physics 1976
The nobel Prize in Physics 1976. for their pioneering work in the discovery of aheavy elementary particle of a new kind . Burton Richter, samuel Chao Chung ting.
http://www.nobel.se/physics/laureates/1976/
The Nobel Prize in Physics 1976
"for their pioneering work in the discovery of a heavy elementary particle of a new kind" Burton Richter Samuel Chao Chung Ting 1/2 of the prize 1/2 of the prize USA USA Stanford Linear Accelerator Center
Stanford, CA, USA Massachusetts Institute of Technology (MIT)
Cambridge, MA, USA b. 1931 b. 1936 The Nobel Prize in Physics 1976
Press Release

Presentation Speech
Burton Richter ...
Other Resources
The 1976 Prize in:
Physics

Chemistry

Physiology or Medicine

Literature
...
Economic Sciences
Find a Laureate: Last modified June 16, 2000 The Official Web Site of The Nobel Foundation

3. Samuel C. C. Ting Winner Of The 1976 Nobel Prize In Physics
samuel CC ting, a nobel Prize Laureate in Physics, at the nobel PrizeInternet Archive. samuel C. C. ting. 1976 nobel Laureate in
http://almaz.com/nobel/physics/1976b.html
S AMUEL C C T ING
1976 Nobel Laureate in Physics
    for their pioneering work in the discovery of a heavy elementary particle of a new kind.
Background

4. Index Of Nobel Laureates In Physics
ALPHABETICAL LISting OF nobel PRIZE LAUREATES IN PHYSICS. Name, Year Awarded.Alferov, Zhores I. 2000. Thomson, Sir Joseph John, 1906. ting, samuel CC, 1976.
http://almaz.com/nobel/physics/alpha.html
ALPHABETICAL LISTING OF NOBEL PRIZE LAUREATES IN PHYSICS
Name Year Awarded Alferov, Zhores I. Alfven, Hannes Alvarez, Luis W. Anderson, Carl David ... Medicine We always welcome your feedback and comments

5. Ten Nobels For The Future
1979 Wiesel, Elie Peace, 1986 Zewail, Ahmed H. Chemistry, 1999 Zinkernagel, RolfM. Medicine, 1996, nobel Laureate in Physics, 1976 samuel CC ting was born in
http://www.hypothesis.it/nobel/eng/bio/ting.htm

Allais, Maurice
Economics, 1988
Altman, Sidney
Chemistry, 1989
Arber, Werner
Medicine, 1978
Arrow, Kenneth J.
Economics, 1972
Baltimore, David
Medicine, 1975
Becker, Gary S.
Economics, 1992
Black, James W.
Medicine, 1988
Brown, Lester R.

Buchanan, James M.
Economics, 1986
Charpak, Georges
Physics, 1992 Dahrendorf, Ralf Dausset, Jean Medicine, 1980 Economics, 1983 de Duve, Christian Medicine, 1974 Dulbecco, Renato Medicine, 1975 Ernst, Richard R. Chemistry, 1991 Esaki, Leo Physics, 1973 Fo, Dario Literature, 1997 Gell-Mann, Murray Physics, 1969 Glashow, Sheldon Lee Physics, 1979 Guillemin, Roger C.L. Medicine, 1977 Hoffmann, Roald Chemistry, 1981 Jacob, François Medicine, 1965 Kindermans, Jean-Marie Peace 1999 Klein, Lawrence R. Economics, 1980 Kroto, Harold W. Chemistry, 1996 Lederman, Leon M.

6. Dieci Nobel Per Il Futuro
Translate this page Fisica, 1979 Wiesel, Elie Pace, 1986 Zewail, Ahmed H. Chimica, 1999 Zinkernagel,Rolf M. Medicina, 1996, Premio nobel per la Fisica, 1976 samuel CC ting è nato
http://www.hypothesis.it/nobel/ita/bio/ting.htm

Allais, Maurice
Economia, 1988
Altman, Sidney
Chimica, 1989
Arber, Werner
Medicina, 1978
Arrow, Kenneth J.
Economia, 1972
Baltimore, David
Medicina, 1975
Becker, Gary S.
Economia, 1992
Black, James W.
Medicina, 1988
Brown, Lester R.

Buchanan, James M.
Economia, 1986
Charpak, Georges
Fisica, 1992 Dahrendorf, Ralf Dausset, Jean Medicina, 1980 Economia, 1983 de Duve, Christian Medicina, 1974 Dulbecco, Renato Medicina, 1975 Ernst, Richard R. Chimica, 1991 Esaki, Leo Fisica, 1973 Fo, Dario Letteratura, 1997 Gell-Mann, Murray Fisica, 1969 Glashow, Sheldon Lee Fisica, 1979 Guillemin, Roger C.L. Medicina, 1977 Hoffmann, Roald Chimica, 1981 Jacob, François Medicina, 1965 Kindermans, Jean-Marie Pace, 1999 Klein, Lawrence R. Economia, 1980 Kroto, Harold W. Chimica, 1996 Lederman, Leon M.

7. Ting, Samuel C.C.
ting, samuel CC,. samuel CC ting with his daughters at the nobel Prize ceremony,1976. CorbisBettmann. in full samuel CHAO CHUNG ting (b. Jan.
http://www.britannica.com/nobel/micro/595_38.html
Ting, Samuel C.C.,
Samuel C.C. Ting with his daughters at the Nobel Prize ceremony, 1976 Corbis-Bettmann in full SAMUEL CHAO CHUNG TING (b. Jan. 27, 1936, Ann Arbor, Mich., U.S.), American physicist who shared in the Nobel Prize for Physics in 1976 for his discovery of a new subatomic particle, the J/psi particle The son of a Chinese college professor who was studying in the United States when Ting was born, he was raised in mainland China and Taiwan and at the age of 20 emigrated to the United States. He was educated at the University of Michigan, Ann Arbor, where he received his doctorate in 1962. Ting taught briefly at Columbia University and was group leader at a nuclear facility at Hamburg, W.Ger., before joining the faculty of the Massachusetts Institute of Technology, Cambridge, in 1967, becoming a professor in 1969. In 1974 in experiments conducted at the Brookhaven National Laboratory at Upton, Long Island, N.Y., Ting discovered a new subatomic particle that he called the J-particle (now usually called the J/psi particle), the first of a new class of very massive, long-lived mesons . The discovery of this particle, which is thought to be composed of a charmed quark and its antiquark, led to a significant expansion and refinement of the quark model. For this discovery Ting was awarded the 1976 Nobel Prize for Physics jointly with

8. Nobel Prize Winners For 1971-1980
particles (psi, or J), physics, ting, samuel CC, US, discovery of newclass of elementary particles (psi, or J), physiology/medicine, Blumberg
http://www.britannica.com/nobel/1971_80.html

9. Michigan Great Samuel C. C. Ting: Nobel Laureate Physicist Has Long, Strong Ties
The University Record, May 24 , 1999. Michigan Great samuel CC TingNobel Laureate physicist has long, strong ties with U. Editor
http://www.umich.edu/~urecord/9899/May24_99/17.htm
The University Record, May 24 , 1999
Michigan Great Samuel C. C. Ting: Nobel Laureate physicist has long, strong ties with U
www.research.umich.edu/research/news/michigangreats.html By Lee Katterman
Office of the Vice President for Research Ting After receiving his Ph.D., Ting went to CERN as a Ford Foundation postdoctoral scholar, then joined the faculty at Columbia University where he became interested in the physics of electron-positron pair production. (A positron is a nuclear particle like an electron, but with a positive charge.) In the spring of 1972, Ting, then on the faculty at the Massachusetts Institute of Technology, began experiments at the Brookhaven National Laboratory in New York, again involving electron-positron pairs. In August 1974, his experiments produced a surprising reading, which Ting immediately recognized as something very different from theoretical expectations. In 1976, Ting, only 40 years old, and Richter shared the Nobel Prize in Physics. Less than two years had passed since their dual discoveries, the shortest time span from a discovery to such recognition in Nobel history. Today, Ting is the Thomas Dudley Cabot Institute professor of physics at MIT, but maintains many links to Michigan. Last fall, he organized a special symposium at CERN to honor Jones on the occasion of his retirement from the U-M faculty. Ting has helped the Department of Physics with faculty recruitment, and two of his former graduate students, Jianming Qian and Bing Zhou, are members of the faculty.

10. UMAlumni.com Alumni Association
ting, samuel CC, '59, MS'60, PhD'63, HSCD'78, shared the 1976 nobel Prize inphysics for codiscovering a subatomic structure called the J particle.
http://www.umich.edu/~umalumni/association/history-inventions.html

11. Michigan Greats - Samuel C. C. Ting
Oct. 19, 1996. Other images of samuel ting; samuel CC ting Autobiographyfrom nobel Lectures, World Scientific Publishing Co. samuel
http://www.research.umich.edu/news/michigangreats/ting.html
Home Site Map Queries: UMresearch@umich.edu
MICHIGAN GREATS
Samuel C. C. Ting Nobel Laureate Physicist has Long, Strong Ties with the UM by Lee Katterman
Office of the Vice President for Research Samuel C. C. Ting's association with Ann Arbor goes back to his birth on January 27, 1936. Ting's parents, scholars in their own right, were both graduate students at the University of Michigan in early 1936. The couple planned to return soon to China with his pregnant wife. Chance intervened and the Ting's first child was born almost two months premature. The Ting family did go back to Beijing, China when young Sam was two months old. His father became an engineering professor and his mother a professor of psychology. Ting's maternal grandmother assumed most of the child-rearing duties. World War II prevented Sam Ting from beginning formal schooling until he was 9 years old, although education was always highly valued in his family. It turned out that Ting's maternal grandfather lost his life during the first Chinese Revolution. So, at the age of thirty-three, his grandmother had gone to school, became a teacher, and brought Sam's 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," says Ting. "Both of them were daring, original, and determined people, and they have left an indelible impression on me."

12. MIT Physics Faculty: Samuel C. C. Ting
samuel CC ting, Thomas Dudley Cabot Professor of Physics Email ting@lns.mit.eduPhone (617) 2538326. Co-recipient, 1976 nobel Prize in Physics.
http://web.mit.edu/physics/facultyandstaff/faculty/samuel_ting.html

Alphabetical Listing

Areas of Research

Alphabetical Listing

Listed by Department Office

SAMUEL C. C. TING, Thomas Dudley Cabot Professor of Physics
Email: ting@lns.mit.edu Phone: Fax: Address: Room 44-114 Related Links: MIT Laboratory for Nuclear Science (LNS) Co-recipient, 1976 Nobel Prize in Physics "The Discovery of the J Paricle: a Personal Recollection" (1976 Nobel Lecture) [PDF] Research Interests Description of the AMS-LNS collaboration on the MIT LNS web site. Biographical Sketch
  • Biographical summary available on the MIT LNS web site. Autobiography for The Nobel Foundation.
  • Selected Publications Professor Ting's publications are available on the SPIRES HEP Literature Database [top]

    13. Congressman Michael Capuano Visiting Nobel Prize-winning Lab At MIT Today
    Capuano is expected to preview the Alpha Magnetic Spectrometer (AMS) experimentled by nobelwinner samuel CC ting and his collaborators Ulrich Becker and
    http://web.mit.edu/newsoffice/nr/1999/capuano.html

    News Releases
    Search MIT News Office Comments ... MIT
    Congressman Michael Capuano visiting
    Nobel Prize-winning lab at MIT today
    Today at 2pm
    AUGUST 19, 1999
    Contact Information
    Congressman Michael Capuano (D-MA-8th) will visit MIT's Laboratory for Nuclear Science, the largest on-campus lab of its kind in the nation and the research home of three Nobel Prize winners, at 2 p.m. today in Room 26-505 of the Karl Taylor Compton Laboratory. Capuano is expected to preview the Alpha Magnetic Spectrometer (AMS) experiment led by Nobel-winner Samuel C.C. Ting and his collaborators Ulrich Becker and Peter Fisher. The Alpha Magnetic Spectrometer is a sophisticated cosmic ray detector that flew in the STS-91 shuttle payload for 10 days in June 1998 and gathered about 100 hours of data. The AMS recorded the tracks of millions of cosmic ray particles, the debris released by explosions in distant starts. AMS is the first large magnet experiment ever placed in the Earth's orbit. AMS's instrumentation allowed researchers to measure higher energy particles with greater accuracy than previously possible. NASA will install AMS on the International Space Station in 2003 to gather data for about three years, which will allow scientists to conduct a much more extensive search for rare cosmic ray particles. The AMS project is an international scientific collaboration that includes 37 research institutions worldwide.

    14. Samuel C. C. Ting
    samuel CC ting was born on 27 January 1936 in Ann Arbor In 1963, SCC ting was granteda Ford Foundation Fellowship by the US Government in 1976 nobel Prize in
    http://pierre.mit.edu/~eluc/AMS/ting-bio.html
    Early Background Samuel C.C. Ting was born on 27 January 1936 in Ann Arbor, Michigan, USA, where his parents, Professor K.H. Ting and Professor Jeanne M. Wong Ting were students at the University of Michigan. His family returned to China a few months later. Education Elementary and secondary education took place in China, during the 1936-1956 period, S.C.C. Ting excelled in mathematics, science and history. In 1956, he returned to the United States to attend the University of Michigan as an engineering student, but he soon transferred his major to physics.
    Higher Education 1959 awarded BSE in physics and BSE in mathematics from the University of Michigan 1962 awarded Ph.D. in physics from the University of Michigan
    Academic and Research Position In 1963, S.C.C. Ting was granted a Ford Foundation Fellowship to work at the European Organization for Nuclear Research in Geneva, Switzerland. He returned to the United States in 1964 to become an instructor at Columbia University in New York. In 1966, he became the leader of an experimental group at the Deutsches Elektronen Synchrotron in Hamburg, Germany. In 1969, he was appointed Professor of Physics at the

    15. Nobel Laureates At MIT
    1/3 samuel CC ting, professor of physics, shared the 1976 nobel Prize in physicsfor discovering the J particle, a heavy elemental particle of subatomic matter
    http://www-tech.mit.edu/V110/N43/nobel4.43n.html
    Nobel laureates at MIT
    Nobel laureates at MIT There are 10 current or emeritus MIT faculty members who have won Nobel Prizes: 1/3 Har Gobind Khorana, a professor of biology and chemistry, won the 1968 Nobel Prize in physiology or medicine for interpreting "the genetic code and its function in protein synthesis." His work was done at the University of Wisconsin. 1/3 Salvador Luria, professor of biology, emeritus, shared the 1969 prize in physiology or medicine for discoveries concerning "the replication mechanism and the genetic structure of viruses." 1/3 Paul A. Samuelson, Institute professor of economics, emeritus, won the 1970 Nobel Memorial Prize in Economic Science for working to raise the level of scientific analysis in economic theory. He was the first American to win the award. 1/3 Samuel C. C. Ting, professor of physics, shared the 1976 Nobel Prize in physics for discovering the J particle, a heavy elemental particle of subatomic matter. 1/3 Franco Modigliani, Institute professor of economics, emeritus, won the 1985 economics prize for his "pioneering analyses of saving and of financial markets," often referred to as "life-cycle savings." 1/3 Susumu Tonegawa, professor of biology, won the 1987 prize in physiology or medicine for discovering how gene fragments combine to produce countless variations in the immune response of humans.

    16. 1976 Nobel Prize In Physics
    nobel Prizes 1976 nobel Prize in Physics. ting, samuel CC, USA, MassachusettsInstitute of Technology, Cambridge, MA, and CERN, Geneva, Switzerland.
    http://www2.slac.stanford.edu/vvc/nobel/1976nobel.html

    1976 Nobel Prize in Physics
    The prize was awarded jointly to:
    • Richter, Burton , U.S.A., Stanford Linear Accelerator Center , Stanford University, Stanford, CA, and Ting, Samuel C. C., U.S.A., Massachusetts Institute of Technology, Cambridge, MA, and CERN, Geneva, Switzerland
    "for their pioneering work in the discovery of a heavy elementary particle of a new kind".
    Charm: The 4th Quark Burton Richter (SLAC) led the group that designed and built the Stanford Positron Electron Asymmetric Ring ( SPEAR ). Experiments at SPEAR in 1973 - 1974 looked at the rate of occurrence of events in which a colliding electron and positron annihilate, disappearing and producing other particles in the process. At certain energies, the rate seemed inexplicably large.
    Gerson Goldhaber, Martin Perl, and Burton Richter view an
    event display in the SPEAR (Mark I) counting room. On November 10, 1974, remeasurements in the problematic energy range confirmed a dramatic rate increase. Many further checks found that this peak is due to the production of particles containing a new kind of quark the charm quark.

    17. Experimental Facilities: SPEAR
    This work was recognized by the award of the 1976 nobel Prize in Physics to BurtonRichter of SLAC, an award he shared with samuel CC ting of MIT for the
    http://www2.slac.stanford.edu/vvc/experiments/spear.html

    The SPEAR Storage Ring
    Stanford University has a long history of involvement in the development and use of colliding-beam storage rings for particle physics research. The first such machine at Stanford was a small electron-electron collider, shaped like a figure eight, located on the main campus. A collaborative effort between physicists from Princeton and Stanford Universities, this project produced the first physics results ever obtained with the colliding-beam technique. The next in the succession of Stanford colliders was the SPEAR (Stanford Positron Electron Accelerating Ring) machine at SLAC, completed in 1972. SPEAR consists of a single ring some 80 meters in diameter, in which counter-rotating beams of electrons and positrons were circulated at energies up to 4 GeV . In terms of the rich harvest of discoveries it has yielded, it has been the most cost-effective machine ever built in the field of high energy physics. In 1990, the machine was dedicated to synchrotron radiation research Two particular SPEAR discoveries stand out. The first was the 1974 discovery of a particle called the J/psi that is made up of a combination of a quark and an antiquark of an entirely new kind. Before this discovery only three types of quarks were known, but the discovery of this new quark (called

    18. Today At Berkeley Lab: March 26, 2003
    Science Division Colloquia The Alpha Magnetic Spectrometer Experiment on the InternationalSpace Station, nobel laureate samuel CC ting, MIT Building 50
    http://www.lbl.gov/today/2003/Mar/26-Wed/3-26-2003.html
    Wednesday, March 26, 2003 Today 11 a.m.
    Nuclear Science Division Colloquia
    The Alpha Magnetic Spectrometer Experiment on the International
    Space Station
    , Nobel laureate Samuel C.C. Ting, MIT
    Building 50 Auditorium
    EHS 260, Basic Electric Hazard Awareness
    Building 51, Room 201 Tomorrow
    EHS 400, Radiation Protection Fundamentals Noon
    Environmental Energy Technologies Division Seminar
    Evolution of the Distributed Utility Concept 1988 - 2003
    Joe Iannucci, Distributed Utility Associates Building 90, Room 3148 1:30 p.m. SEMINAR Surface Science And Catalysis Series Fundamental Studies of Transition Metal Sulfide Catalytic Materials: The Forgotten Role of Carbon Russell R. Chianelli, University of Texas at El Paso

    19. Leung: Chinese Americans Project
    3) samuel CC ting The 1976 nobel Prize in physics was shared by a MassachusettsInstitute of Technology researcher who used BNL's Alternating Gradient
    http://www.sfusd.k12.ca.us/schwww/sch405/IUP/education.html
    EDUCATION Introduction 2. Scholars and educators: 3. Publishers: Chinese schools INTRODUCTION : Since the first group of Chinese set foot on America more than one hundred years ago, education of Chinese American developed from zero to that excellence of today. Many Chinese Americans contributed and keep on contributing to education of America. One hundred years ago, there almost were no schools for Chinese Americans. They didn't have right and chance to go to public school. Even some of them got chance, but there still were so many troubles and difficulties, such as discrimination, language, culture, etc. Chinese Americans tried their best to higher their statues in the society, first of all, from the education.Take a look at schools and Chinese Americans today. At schools, they are good and excellent. At society, they are successful and honorable at every aspect. Here our group will introduce some of them . SCHOLARS AND EDUCATORS CHANG-LIN TIEN: Chang-Lin Tien was the Chancellor of U.C. Bekerley

    20. Leung: Chinese Americans Project
    4. samuel CC ting. Dr. Chen Ning Yang Chen Ning Yang, nobel Prize recipient and Directorof the Theoretical Physics Department at State University of New York
    http://www.sfusd.k12.ca.us/schwww/sch405/IUP/chineseScience.html
    SCIENCE Introduction Dr. Chen Ning Yang Dr. Tsung Dao Lee Dr. Steven Chu ... Samuel C.C. Ting INTRODUCTION All the way to the earlier time of this century, the most important and successful thing the Chinese have contributed to the U.S. society was the railroad. Now, in 1998, we can tell you that Chinese have done a lot besides the railroad building. One of the things we are so proud of is a number of famous scientists have discovered a lot to help our society. All these successful Chinese American scientists share one common point. It is that they are all proud to be Chinese and they have tried their best to contribute something to their second mother, that is America. Their inventions shocked the whole world. Let's hear some of their stories. Dr. Chen Ning Yang : Chen Ning Yang, Nobel Prize recipient and Director of the Theoretical Physics Department at State University of New York at Stony Book, is the 1992 Roy E. Moon Distinguished Lecturer in Science at Angelo State University. He is among the word's foremost theoretical physicists and mathematicians and is known for his work on elementary particles.

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