Steven Weinberg

Steven Weinberg
Weinberg at the 2010 Texas Book Festival
Born(1933-05-03)May 3, 1933
New York City, U.S.
DiedJuly 23, 2021(2021-07-23) (aged 88)
Austin, Texas, U.S.
Resting placeTexas State Cemetery
Education
Known for
Spouse
(m. 1954)
Children1
Awards
Scientific career
FieldsTheoretical physics
Institutions
ThesisThe role of strong interactions in decay processes (1957)
Doctoral advisorSam Treiman[3]
Doctoral students
Weinberg's voice
While joking with Richard Dawkins over his view on the existence of God
Recorded July 2008
Websiteutphysicshistory.net/StevenWeinberg.html

Steven Weinberg (/ˈwnbɜːrɡ/; May 3, 1933 – July 23, 2021) was an American theoretical physicist and Nobel laureate in physics for his contributions with Abdus Salam and Sheldon Glashow to the unification of the weak force and electromagnetic interaction between elementary particles.

He held the Josey Regental Chair in Science at the University of Texas at Austin, where he was a member of the Physics and Astronomy Departments. His research on elementary particles and physical cosmology was honored with numerous prizes and awards, including the 1979 Nobel Prize in physics and the 1991 National Medal of Science. In 2004, he received the Benjamin Franklin Medal of the American Philosophical Society, with a citation that said he was "considered by many to be the preeminent theoretical physicist alive in the world today." He was elected to the U.S. National Academy of Sciences, Britain's Royal Society, the American Philosophical Society, and the American Academy of Arts and Sciences.

Weinberg's articles on various subjects occasionally appeared in The New York Review of Books and other periodicals. He served as a consultant at the U.S. Arms Control and Disarmament Agency, president of the Philosophical Society of Texas, and member of the Board of Editors of Daedalus magazine, the Council of Scholars of the Library of Congress, the JASON group of defense consultants, and many other boards and committees.[5][6]

Early life

Steven Weinberg was born in 1933 in New York City.[7] His parents were Jewish[8] immigrants;[9] his father, Frederick, worked as a court stenographer, while his mother, Eva (Israel), was a housewife.[10][11] Becoming interested in science at age 16 through a chemistry set handed down by a cousin,[12][10] he graduated from Bronx High School of Science in 1950.[13] He was in the same graduating class as Sheldon Glashow,[11] whose research, independent of Weinberg's, resulted in their (and Abdus Salam's) sharing the 1979 Nobel in physics.[14]

Weinberg received his bachelor's degree from Cornell University in 1954. There he resided at the Telluride House. He then went to the Niels Bohr Institute in Copenhagen, where he started his graduate studies and research. After one year, Weinberg moved to Princeton University, where he earned his Ph.D. in physics in 1957, completing his dissertation, "The role of strong interactions in decay processes", under the supervision of Sam Treiman.[3][15]

Career and research

After completing his Ph.D., Weinberg worked as a postdoctoral researcher at Columbia University (1957–59) and University of California, Berkeley (1959) and then was promoted to faculty at Berkeley (1960–66). He did research in a variety of topics of particle physics, such as the high energy behavior of quantum field theory, symmetry breaking,[16] pion scattering, infrared photons and quantum gravity (soft graviton theorem).[17] It was also during this time that he developed the approach to quantum field theory described in the first chapters of his book The Quantum Theory of Fields[18] and started to write his textbook Gravitation and Cosmology, having taken up an interest in general relativity after the discovery of cosmic microwave background radiation.[10] He was also appointed the senior scientist at the Smithsonian Astrophysical Observatory.[10] The Quantum Theory of Fields spanned three volumes and over 1,500 pages, and is often regarded as the leading book in the field.[10]

In 1966, Weinberg left Berkeley and accepted a lecturer position at Harvard. In 1967 he was a visiting professor at MIT. It was in that year at MIT that Weinberg proposed his model of unification of electromagnetism and nuclear weak forces (such as those involved in beta-decay and kaon-decay),[19] with the masses of the force-carriers of the weak part of the interaction being explained by spontaneous symmetry breaking. One of its fundamental aspects was the prediction of the existence of the Higgs boson. Weinberg's model, now known as the electroweak unification theory, had the same symmetry structure as that proposed by Glashow in 1961: both included the then-unknown weak interaction mechanism between leptons, known as neutral current and mediated by the Z boson. The 1973 experimental discovery of weak neutral currents[20] (mediated by this Z boson) was one verification of the electroweak unification. The paper by Weinberg in which he presented this theory is one of the most cited works ever in high-energy physics.[21]

After his 1967 seminal work on the unification of weak and electromagnetic interactions, Weinberg continued his work in many aspects of particle physics, quantum field theory, gravity, supersymmetry, superstrings and cosmology. In the years after 1967, the full Standard Model of elementary particle theory was developed through the work of many contributors. In it, the weak and electromagnetic interactions already unified by the work of Weinberg, Salam and Glashow, are made consistent with a theory of the strong interactions between quarks, in one overarching theory. In 1973, Weinberg proposed a modification of the Standard Model that did not contain that model's fundamental Higgs boson. Also during the 1970s, he proposed a theory later known as technicolor, in which new strong interactions resolve the hierarchy problem.[22][23][24]

Weinberg became Eugene Higgins Professor of Physics at Harvard University in 1973, a post he held until 1983.[14] In 1979 he pioneered the modern view on the renormalization aspect of quantum field theory that considers all quantum field theories effective field theories and changed the viewpoint of previous work (including his own in his 1967 paper) that a sensible quantum field theory must be renormalizable.[25] This approach allowed the development of effective theory of quantum gravity,[26] low energy QCD, heavy quark effective field theory and other developments, and is a topic of considerable interest in current research.[27]

In 1979, some six years after the experimental discovery of the neutral currents—i.e. the discovery of the inferred existence of the Z boson—but after the 1978 experimental discovery of the theory's predicted amount of parity violation due to Z bosons' mixing with electromagnetic interactions,[28] Weinberg was awarded the Nobel Prize in physics with Glashow and Salam, who had independently proposed a theory of electroweak unification based on spontaneous symmetry breaking.[10][14]

In 1982 Weinberg moved to the University of Texas at Austin as the Jack S. Josey-Welch Foundation Regents Chair in Science,[14] and started a theoretical physics group at the university that now has eight full professors and is one of the leading research groups in the field in the U.S.[10]

Weinberg is frequently listed among the top scientists with the highest research effect indices, such as the h-index and the creativity index.[29] The theoretical physicist Peter Woit called Weinberg "arguably the dominant figure in theoretical particle physics during its period of great success from the late sixties to the early eighties", calling his contribution to electroweak unification "to this day at the center of the Standard Model, our best understanding of fundamental physics".[30] Science News named him along with fellow theorists Murray Gell-Mann and Richard Feynman the leading physicists of the era, commenting, "Among his peers, Weinberg was one of the most respected figures in all of physics or perhaps all of science".[31] Sean Carroll called Weinberg one of the “best physicists we had; one of the best thinkers of any variety” who “exhibited extraordinary verve and clarity of thought through the whole stretch of a long and productive life”,[32] while John Preskill called him "one of the most accomplished scientists of our age, and a particularly eloquent spokesperson for the scientific worldview".[32] Brian Greene said that Weinberg had an “astounding ability to see into the deep workings of nature” that “profoundly shaped our understanding of the universe".[32] Upon the awarding of the Breakthrough Prize in 2020, one of the founders of the prizes, Yuri Milner, called Weinberg a “key architect” of “one of the most successful physical theories ever”, while string theorist Juan Maldacena, the chair of the selection committee, said, “Steven Weinberg has developed many of the key theoretical tools that we use for the description of nature at a fundamental level".[33]

Steven Weinberg in December 2014

Other contributions

Besides his scientific research, Weinberg was a public spokesman for science, testifying before Congress in support of the Superconducting Super Collider, writing articles for The New York Review of Books,[34] and giving various lectures on the larger meaning of science. His books on science written for the public combine the typical scientific popularization with what is traditionally considered history and philosophy of science and atheism. His first popular science book, The First Three Minutes: A Modern View of the Origin of the Universe (1977), described the start of the universe with the Big Bang and enunciated a case for its expansion.[12]

Although still teaching physics, in later years he turned his hand to the history of science, efforts that culminated in To Explain the World: The Discovery of Modern Science (2015).[35] A hostile review[36] in the Wall Street Journal by Steven Shapin attracted a number of commentaries,[37] a response by Weinberg,[35] and an exchange of views between Weinberg and Arthur Silverstein in the NYRB in February 2016.[38]

In 2016, Weinberg became a default leader for faculty and students opposed to a new law allowing the carrying of concealed guns in UT classrooms. He announced that he would prohibit guns in his classes, and said he would stand by his decision to violate university regulations in this matter even if faced with a lawsuit.[39] Weinberg never retired and taught at UT until his death.[10]

Personal life and archive

In 1954 Weinberg married legal scholar Louise Goldwasser and they had a daughter, Elizabeth.[13][40]

Weinberg died on July 23, 2021, at age 88 at a hospital in Austin, where he had been undergoing treatment for several weeks.[40][41]

Weinberg's papers were donated to the Harry Ransom Center at the University of Texas.[42]

Worldview

Weinberg identified as a liberal.[43]

Views on religion

Weinberg was an atheist.[44] Before he was an advocate of the Big Bang theory, Weinberg said: "The steady-state theory is philosophically the most attractive theory because it least resembles the account given in Genesis."[45]

Views on Israel

Weinberg was known for his support of Israel, which he characterized as "the 'most exposed salient' in a war between liberal democracies and Muslim theocracies."[46] He wrote the 1997 essay "Zionism and Its Adversaries" on the issue.[47][43]

In the 2000s, Weinberg canceled trips to universities in the United Kingdom because of the British boycotts of Israel. At the time, he said: "Given the history of the attacks on Israel and the oppressiveness and aggressiveness of other countries in the Middle East and elsewhere, boycotting Israel indicated a moral blindness for which it is hard to find any explanation other than antisemitism."[48]

Honors and awards

Queen Beatrix meets Nobel laureates in 1983. Weinberg is third from the left of the photo

Selected publications

A list of Weinberg's publications can be found on arXiv[61] and Scopus.[62]

Bibliography: books authored / coauthored

  • Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity (1972)
  • The First Three Minutes: A Modern View of the Origin of the Universe (1977, updated with new afterword in 1993, ISBN 0-465-02437-8)
  • The Discovery of Subatomic Particles (1983)
  • Elementary Particles and the Laws of Physics: The 1986 Dirac Memorial Lectures (1987; with Richard Feynman)
  • Dreams of a Final Theory: The Search for the Fundamental Laws of Nature (1993), ISBN 0-09-922391-0
  • The Quantum Theory of Fields (three volumes: I Foundations 1995, II Modern Applications 1996, III Supersymmetry 2000,[63] Cambridge University Press, ISBN 0-521-67053-5, ISBN 0-521-67054-3, ISBN 0-521-66000-9)
  • Facing Up: Science and Its Cultural Adversaries (2001, 2003, HUP)
  • Glory and Terror: The Coming Nuclear Danger (2004, NYRB)
  • Cosmology (2008, OUP)
  • Lake Views: This World and the Universe (2010), Belknap Press of Harvard University Press, ISBN 0-674-03515-1.
  • Lectures on Quantum Mechanics (2012, second edition 2015, CUP)
  • To Explain the World: The Discovery of Modern Science (2015), Harper/HarperCollins Publishers, ISBN 978-0-06-234665-0
  • Third Thoughts (2018), Belknap Press, ISBN 978-0-674-97532-3
  • Lectures on Astrophysics (2019, CUP, ISBN 978-1-108-41507-1)
  • Foundations of Modern Physics (2021, CUP, ISBN 978-1-108-84176-4)

Scholarly articles

  • A Designer Universe?, a refutation of attacks on the theories of evolution and cosmology (e.g., those conducted under the rubric of intelligent design) is based on a talk given in April 1999 at the Conference on Cosmic Design of the American Association for the Advancement of Science in Washington, D.C. This and other works express Weinberg's strongly held position that scientists should be less passive in defending science against anti-science religiosity.
  • Beautiful Theories, an article reprinted from Dreams of a Final Theory by Steven Weinberg in 1992 which focuses on the nature of beauty in physical theories.
  • The Crisis of Big Science, May 10, 2012, New York Review of Books. Weinberg places the cancellation of the Superconducting Super Collider in the context of a bigger national and global socio-economic crisis, including a general crisis in funding for science research and the provision of adequate education, healthcare, transportation, and communication infrastructure, and criminal justice and law enforcement.

See also

References

  1. ^ a b "Professor Steven Weinberg ForMemRS". London: Royal Society. Archived from the original on November 12, 2015.
  2. ^ a b "Fellowship of the Royal Society 1660–2015". London: Royal Society. Archived from the original on October 15, 2015.
  3. ^ a b c d e f g h i j k l m n o p q r s Steven Weinberg at the Mathematics Genealogy Project
  4. ^ a b c d "Steven Weinberg". Physics Tree (academictree.org).
  5. ^ "Oral Histories". American Institute of Physics.
  6. ^ "Leslie, J, "Never-ending universe", a review in the Times Literary Supplement of Weinberg's 2015 book To explain the World". Archived from the original on April 30, 2016. Retrieved May 13, 2015.
  7. ^ "The Nobel Prize in Physics 1979". NobelPrize.org. Retrieved July 27, 2021.
  8. ^ "Three Scientists Win Nobel Prize". Jewish Telegraphic Agency. October 16, 1979.
  9. ^ "Muster Mark's Quarks". Archived from the original on July 25, 2014.
  10. ^ a b c d e f g h McClain, Dylan Loeb (July 26, 2021). "Steven Weinberg, Groundbreaking Nobelist in Physics, Dies at 88". New York Times. Retrieved July 26, 2021.
  11. ^ a b "steven Weinberg 1933–". PBS. 1998. Retrieved July 26, 2021.
  12. ^ a b ghose, Tia (July 25, 2021). "Steven Weinberg, Nobel Prize-winning physicist, has died". Live Science. Retrieved July 26, 2021.
  13. ^ a b c "Steven Weinberg – Biographical". nobelprize.org. Retrieved January 25, 2016.
  14. ^ a b c d "Steven Weinberg". American Institute of Physics. Retrieved July 26, 2021.
  15. ^ Weinberg, Steven (June 16, 1957). The role of strong interactions in decay processes – via catalog.princeton.edu.
  16. ^ "From BCS to the LHC – CERN Courier". January 21, 2008.
  17. ^ A partial list of this work is: Weinberg, S. (1960). "High-Energy Behavior in Quantum Field Theory". Phys. Rev. 118 (3): 838–849. Bibcode:1960PhRv..118..838W. doi:10.1103/PhysRev.118.838.; Weinberg, S.; Salam, Abdus; Weinberg, Steven (1962). "Broken Symmetries". Phys. Rev. 127 (3): 965–970. Bibcode:1962PhRv..127..965G. doi:10.1103/PhysRev.127.965.; Weinberg, S. (1966). "Pion Scattering Lengths". Phys. Rev. Lett. 17 (11): 616–621. Bibcode:1966PhRvL..17..616W. doi:10.1103/PhysRevLett.17.616.; Weinberg, S. (1965). "Infrared Photons and Gravitons". Phys. Rev. 140 (2B): B516 – B524. Bibcode:1965PhRv..140..516W. doi:10.1103/PhysRev.140.B516.
  18. ^ Weinberg, S. (1964). "Feynman Rules for Any spin". Phys. Rev. 133 (5B): B1318 – B1332. Bibcode:1964PhRv..133.1318W. doi:10.1103/PhysRev.133.B1318.; Weinberg, S. (1964). "Feynman Rules for Any spin. II. Massless Particles". Phys. Rev. 134 (4B): B882 – B896. Bibcode:1964PhRv..134..882W. doi:10.1103/PhysRev.134.B882.; Weinberg, S. (1969). "Feynman Rules for Any spin. III". Phys. Rev. 181 (5): 1893–1899. Bibcode:1969PhRv..181.1893W. doi:10.1103/PhysRev.181.1893.
  19. ^ Weinberg, S. (1967). "A Model of Leptons" (PDF). Phys. Rev. Lett. 19 (21): 1264–1266. Bibcode:1967PhRvL..19.1264W. doi:10.1103/PhysRevLett.19.1264. Archived from the original (PDF) on January 12, 2012.
  20. ^ Haidt, D. (2004). "The discovery of the weak neutral currents". CERN Courier.[1]
  21. ^ INSPIRE-HEP: Top Cited Articles of All Time (2015 edition)
  22. ^ Weinberg, S. (1976). "Implications of dynamical symmetry breaking". Phys. Rev. D. 13 (4): 974–996. Bibcode:1976PhRvD..13..974W. doi:10.1103/PhysRevD.13.974.
  23. ^ Weinberg, S.; Susskind, L. (1979). "Implications of dynamical symmetry breaking: An addendum". Physical Review. D19 (4): 1277–1280. Bibcode:1979PhRvD..19.1277W. doi:10.1103/PhysRevD.19.1277.
  24. ^ Susskind, Leonard (1979). "Dynamics of spontaneous symmetry breaking in the Weinberg-Salam theory". Physical Review. D20 (10): 2619–2625. Bibcode:1979PhRvD..20.2619S. doi:10.1103/PhysRevD.20.2619. OSTI 1446928. S2CID 17294645.
  25. ^ Weinberg, S. (1979). "Phenomenological Lagrangians". Physica. 96 (1–2): 327–340. Bibcode:1979PhyA...96..327W. doi:10.1016/0378-4371(79)90223-1.
  26. ^ Donoghue, J. F. (1994). "General relativity as an effective field theory: The leading quantum corrections". Phys. Rev. D. 50 (6): 3874–3888. arXiv:gr-qc/9405057. Bibcode:1994PhRvD..50.3874D. doi:10.1103/PhysRevD.50.3874. PMID 10018030. S2CID 14352660.
  27. ^ Hartmann, Stephan. "Effective Field Theories, Reductionism and Scientific Explanation" (PDF). Retrieved July 26, 2021.
  28. ^ Charles Y. Prescott (June 30, 1978). Parity violation in inelastic scattering of polarized electrons (PDF). Sixth Trieste Conference on Particle Physics. AIP Conference Proceedings. Vol. 51. Trieste, Italy: American Institute of Physics. p. 202. doi:10.1063/1.31766.
  29. ^ In 2006 Weinberg had the second-highest creativity index among physicists World's most creative physicist revealed. physicsworld.com (June 17, 2006).
  30. ^ Woit, Peter (July 24, 2021). "Steven Weinberg 1933–2021". Retrieved July 25, 2021.
  31. ^ Siegfried, Tom (July 24, 2021). "With Steven Weinberg's death, physics loses a titan". Retrieved July 26, 2021.
  32. ^ a b c Banks, Michael (July 26, 2021). "US Nobel-prize-winning physicist Steven Weinberg dies aged 88". Retrieved July 26, 2021.
  33. ^ Mekelburg, Madlin (September 11, 2020). "UT's Steven Weinberg wins $3M Special Breakthrough Prize in Fundamental Physics". Austin American-Statesman. Retrieved July 26, 2020.
  34. ^ Articles by Steven Weinberg. The New York Review of Books. Nybooks.com. Retrieved on July 27, 2012.
  35. ^ a b Weinberg, Steven (2015). "Eye on the Present—The Whig History of Science". The New York Review of Books. 62 (20): 82, 84. Retrieved February 9, 2016.
  36. ^ Shapin, Stephen (February 13, 2015). "Why Scientists Shouldn't Write History". The Wall Street Journal. Retrieved February 11, 2016.
  37. ^ Bouterse, Jeroen (May 31, 2015). "Weinberg, Whiggism, and the World in History of Science". Shells and Pebbles. Retrieved February 11, 2016.
  38. ^ Silverstein, Arthur; Weinberg, Steven (2016). "The Whig History of Science: An Exchange". The New York Review of Books. 63 (3). Retrieved February 11, 2016.
  39. ^ Mekelburg, Madlin (January 26, 2016). "Nobel Laureate Becomes Reluctant Anti-Gun Leader, by Madlin Mekelburg". The Texas Tribune. Retrieved February 9, 2016.
  40. ^ a b "UT Austin Mourns Death of World-Renowned Physicist Steven Weinberg". University of Texas at Austin. July 24, 2021. Retrieved July 24, 2021.
  41. ^ "Steven Weinberg 1933–2021". CERN Courier. July 26, 2021. Retrieved July 31, 2021.
  42. ^ 'Steven Weinberg: An Inventory of His Papers at the Harry Ransom Center' (Website UTexas)
  43. ^ a b Weinberg, Steven (2001). "Zionism and Its Adversaries". Facing Up: Science and Its Cultural Adversaries. Harvard University Press. pp. 181–183. ISBN 0-674-01120-1.
  44. ^ Weinberg, Steven (September 25, 2008). "Without God". The New York Review of Books. 55 (14).
  45. ^ Richard Feist (November 30, 2017). Religion and the Challenges of Science. Taylor & Francis. pp. 174–. ISBN 978-1-351-15038-5.
  46. ^ Ronan McGreevy (February 12, 2009). "Nobel winner defends Israel's actions". The Irish Times.
  47. ^ The essay was first published in the "Zionism at 100" issue of The New Republic (September 8–15, 1997, pp. 22–23). It was later reprinted in his book of collected essays, Facing Up.
  48. ^ "Nobel laureate cancels London trip due to anti-Semitism". Ynetnews. May 24, 2007. Retrieved June 1, 2007.
  49. ^ a b c d e f g h i j k "The Nobel Prize in Physics 1979". NobelPrize.org. July 25, 2021. Retrieved July 25, 2021.
  50. ^ "APS Fellow Archive". American Physical Society.
  51. ^ Walter, Claire (1982). Winners, the blue ribbon encyclopedia of awards. Facts on File Inc. p. 438. ISBN 978-0-87196-386-4.
  52. ^ "Weinberg awarded Oppenheimer Prize". Physics Today. 26 (3). American Institute of Physics: 87. March 1973. Bibcode:1973PhT....26c..87.. doi:10.1063/1.3127994.
  53. ^ Wilczek, Frank (August 6, 2021). "Steven Weinberg (1933–2021)". Nature. 596 (7871): 183. Bibcode:2021Natur.596..183W. doi:10.1038/d41586-021-02170-w. S2CID 236946383.
  54. ^ "Weinberg, Steven, 1933–". Niels Bohr Library & Archives. Retrieved July 25, 2021.
  55. ^ "UT Austin Mourns Death of World-Renowned Physicist Steven Weinberg". UT News. July 24, 2021. Retrieved July 25, 2021.
  56. ^ "Annual Humanist Awardees". American Humanist Association. September 17, 2020. Retrieved July 25, 2021.
  57. ^ "Benjamin Franklin Medal for Distinguished Achievement in the Sciences Recipients". American Philosophical Society. Retrieved November 26, 2011.
  58. ^ "Weinberg receives James Joyce Award". UT News. February 24, 2009. Retrieved July 25, 2021.
  59. ^ "UT professor wins $3 million Breakthrough Prize in Fundamental Physics". KVUE. September 10, 2020.
  60. ^ "Breakthrough Prize – Fundamental Physics Breakthrough Prize Laureates – Steven Weinberg". Breakthrough Prize. Retrieved July 25, 2021.
  61. ^ "arXiv.org Search". arxiv.org.
  62. ^ Steven Weinberg's publications indexed by the Scopus bibliographic database. (subscription required)
  63. ^ Sethi, Savdeep (2002). "Review: The quantum theory of fields. III Supersymmetry, by Steven Weinberg" (PDF). Bull. Amer. Math. Soc. (N.S.). 39 (3): 433–439. doi:10.1090/s0273-0979-02-00944-8.
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Arun Sundararajan

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Identifier for printed music developed by ISO ISMN redirects here. The term may also refer to Isosorbide mononitrate. A 13-digit ISMN, 979-0-2600-0043-8, as represented by an EAN-13 bar code. The International Standard Music Number or ISMN (ISO 10957) is a thirteen-character alphanumeric identifier for printed music developed by ISO. Overview The original proposal for an ISMN was made by the UK Branch of IAML (International Association of Music Libraries, Archives and Documentation Centres), ...

 

 

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