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John Stewart Bell

April 25, 2024

For other people with the same name, see John Bell (disambiguation).

John Stewart Bell FRS[2] (28 July 1928 – 1 October 1990)[3] was a physicist from Northern Ireland and the originator of Bell's theorem, an important theorem in quantum physics regarding hidden-variable theories.[4][5][6][7][8]

John Stewart Bell
Bell in 1982
Born
John Stewart Bell

28 July 1928
Belfast, Northern Ireland, UK
Died1 October 1990 (aged 62)
Geneva, Switzerland
Alma materQueen's University of Belfast (BSc)
University of Birmingham (PhD)
Known forBell's theorem
Bell state
Bell's spaceship paradox
Bell–Kochen–Specker theorem
Adler–Bell–Jackiw anomaly
Chiral anomaly
CPT symmetry
Superdeterminism
Quantum entanglement
AwardsHeineman Prize (1989)
Hughes Medal (1989)
Paul Dirac Medal and Prize (1988)
Scientific career
InstitutionsAtomic Energy Research Establishment
CERN, Stanford University
ThesisContribution to field theory (i. Time reversal in field theory, ii. Some functional methods in field theory.) (1956)
Doctoral advisorRudolph E. Peierls
Other academic advisorsPaul Taunton Matthews[1]: 137 

In 2022, the Nobel Prize in Physics was awarded to Alain Aspect, John Clauser, and Anton Zeilinger for work on Bell inequalities and the experimental validation of Bell's theorem.[a][9]

Biography edit

Early life and work edit

Bell was born in Belfast, Northern Ireland. When he was 11 years old, he decided to be a scientist, and at 16 graduated from Belfast Technical High School. Bell then attended the Queen's University of Belfast, where, in 1948, he obtained a bachelor's degree in experimental physics and, a year later, a bachelor's degree in mathematical physics. He went on to complete a PhD in physics at the University of Birmingham in 1956, specialising in nuclear physics and quantum field theory. In 1954, he married Mary Ross, also a physicist, whom he had met while working on accelerator physics at Malvern, UK.[10]: 139  Bell became a vegetarian in his teen years.[11] According to his wife, Bell was an atheist.[12]

Bell's career began with the UK Atomic Energy Research Establishment, near Harwell, Oxfordshire, known as AERE or Harwell Laboratory. In 1960, he moved to work for the European Organization for Nuclear Research (CERN, Conseil Européen pour la Recherche Nucléaire), in Geneva, Switzerland.[13] There he worked almost exclusively on theoretical particle physics and on accelerator design, but found time to pursue a major avocation, investigating the foundations of quantum theory. He was elected a Foreign Honorary Member of the American Academy of Arts and Sciences in 1987.[14] Also of significance during his career, Bell, together with John Bradbury Sykes, M. J. Kearsley, and W. H. Reid, translated several volumes of the ten-volume Course of Theoretical Physics of Lev Landau and Evgeny Lifshitz, making these works available to an English-speaking audience in translation, all of which remain in print.

Bell was a proponent of pilot wave theory.[15] In 1987, inspired by Ghirardi–Rimini–Weber theory, he also advocated collapse theories.[16] He said about the interpretation of quantum mechanics: "Well, you see, I don't really know. For me it's not something where I have a solution to sell!"[17]

Bell's theorem edit

Main article: Bell's theorem
 
Bell discussing Bell's inequality at CERN in 1982

In 1964, after a year's leave from CERN that he spent at Stanford University, the University of Wisconsin–Madison and Brandeis University, Bell wrote a paper entitled "On the Einstein–Podolsky–Rosen paradox".[18] In this work, he showed that carrying forward EPR's analysis[19] permits one to derive the famous Bell's theorem.[20] The resultant inequality, derived from basic assumptions that apply to all classical situations, is violated by quantum theory.

There is some disagreement regarding what Bell's inequality—in conjunction with the EPR analysis—can be said to imply. Bell held that not only local hidden variables, but any and all local theoretical explanations must conflict with the predictions of quantum theory: "It is known that with Bohm's example of EPR correlations, involving particles with spin, there is an irreducible nonlocality."[21]: 196  According to an alternative interpretation, not all local theories in general, but only local hidden-variables theories (or "local realist" theories) have shown to be incompatible with the predictions of quantum theory.

Critique of von Neumann's proof edit

Bell's interest in hidden variables was motivated by the existence in the formalism of quantum mechanics of a "movable boundary" between the quantum system and the classical apparatus:

A possibility is that we find exactly where the boundary lies. More plausible to me is that we will find that there is no boundary. ... The wave functions would prove to be a provisional or incomplete description of the quantum-mechanical part, of which an objective account would become possible. It is this possibility, of a homogeneous account of the world, which is for me the chief motivation of the study of the so-called "hidden variable" possibility.[21]: 30 

Bell was impressed that in the formulation of David Bohm's nonlocal hidden-variable theory, no such boundary is needed, and it was this which sparked his interest in the field of research. Bell also criticized the standard formalism of quantum mechanics on the grounds of lack of physical precision:

For the good books known to me are not much concerned with physical precision. This is clear already from their vocabulary. Here are some words which, however legitimate and necessary in application, have no place in a formulation with any pretension to physical precision: system, apparatus, environment, microscopic, macroscopic, reversible, irreversible, observable, information, measurement. ... On this list of bad words from good books, the worst of all is "measurement".[21]: 215 

But if he were to thoroughly explore the viability of Bohm's theory, Bell needed to answer the challenge of the so-called impossibility proofs against hidden variables. Bell addressed these in a paper entitled "On the Problem of Hidden Variables in Quantum Mechanics".[22] (Bell had actually written this paper before his paper on the EPR paradox, but it did not appear until two years later, in 1966, due to publishing delays.[10]: 144 ) Here he showed that John von Neumann's argument[23] does not prove the impossibility of hidden variables, as was widely claimed, due to its reliance on a physical assumption that is not valid for quantum mechanics—namely, that the probability-weighted average of the sum of observable quantities equals the sum of the average values of each of the separate observable quantities.[10]: 141  This flaw in von Neumann's proof had been previously discovered by Grete Hermann in 1935, but did not become common knowledge until after it was rediscovered by Bell.[24] Bell reportedly said, "The proof of von Neumann is not merely false but foolish!"[25]: 88  In this same work, Bell showed that a stronger effort at such a proof (based upon Gleason's theorem) also fails to eliminate the hidden-variables program.

However, in 2010, Jeffrey Bub published an argument that Bell (and, implicitly, Hermann) had misconstrued von Neumann's proof, saying that it does not attempt to prove the absolute impossibility of hidden variables, and is actually not flawed, after all.[26] (Thus, it was the physics community as a whole that had misinterpreted von Neumann's proof as applying universally.) Bub provides evidence that von Neumann understood the limits of his proof, but there is no record of von Neumann attempting to correct the near universal misinterpretation which lingered for over 30 years and exists to some extent to this day. Von Neumann's proof does not in fact apply to contextual hidden variables, as in Bohm's theory.[27]

Conclusions from experimental tests edit

In 1972 an experiment was conducted that, when extrapolated to ideal detector efficiencies, showed a violation of Bell's inequality. It was the first of many such experiments. Bell himself concluded from these experiments that "It now seems that the non-locality is deeply rooted in quantum mechanics itself and will persist in any completion."[21]: 132  This, according to Bell, also implied that quantum theory is not locally causal and cannot be embedded into any locally causal theory. Bell regretted that results of the tests did not agree with the concept of local hidden variables:

For me, it is so reasonable to assume that the photons in those experiments carry with them programs, which have been correlated in advance, telling them how to behave. This is so rational that I think that when Einstein saw that, and the others refused to see it, he was the rational man. The other people, although history has justified them, were burying their heads in the sand. ... So for me, it is a pity that Einstein's idea doesn't work. The reasonable thing just doesn't work."[28]: 84 

Bell seemed to have become resigned to the notion that future experiments would continue to agree with quantum mechanics and violate his inequality. Referring to the Bell test experiments, he remarked:

It is difficult for me to believe that quantum mechanics, working very well for currently practical set-ups, will nevertheless fail badly with improvements in counter efficiency ..."[21]: 109 

Some people continue to believe that agreement with Bell's inequalities might yet be saved. They argue that in the future much more precise experiments could reveal that one of the known loopholes, for example the so-called "fair sampling loophole", had been biasing the interpretations. Most mainstream physicists are highly skeptical about all these "loopholes", admitting their existence but continuing to believe that Bell's inequalities must fail.

Bell remained interested in objective 'observer-free' quantum mechanics.[29] He felt that at the most fundamental level, physical theories ought not to be concerned with observables, but with 'be-ables': "The beables of the theory are those elements which might correspond to elements of reality, to things which exist. Their existence does not depend on 'observation'."[21]: 174  He remained impressed with Bohm's hidden variables as an example of such a scheme and he attacked the more subjective alternatives such as the Copenhagen interpretation.[21]: 92, 133, 181 

Teaching special theory of relativity edit

Bell and his wife, Mary Ross Bell, also a physicist, contributed substantially to the physics of particle accelerators, and with numerous young theorists at CERN, Bell developed particle physics itself. An overview of this work is available in the volume of collected works edited by Mary Bell, Kurt Gottfried, and Martinus Veltman.[30] Apart from his particle physics research, Bell often raised an issue of special relativity comprehension, and although there is only one written report on this topic available ("How to teach special relativity"),[21]: 67–80  this was a critical subject to him. Bell admired Einstein's contribution to special relativity, but warned in 1985 "Einstein's approach is ... pedagogically dangerous, in my opinion".[31]: ix  In 1989 on the occasion of the centenary of the Lorentz-FitzGerald body contraction Bell writes "A great deal of nonsense has been written about the FitzGerald contraction".[30] Bell preferred to think of Lorentz-FitzGerald contraction as a phenomenon that is real and observable as a property of a material body, which was also Einstein's opinion, but in Bell's view Einstein's approach leaves a lot of room for misinterpretation. This situation and the background of Bell's position is described in detail by his collaborator Johann Rafelski in the textbook "Relativity Matters" (2017).[31] In order to combat misconceptions surrounding Lorentz-FitzGerald body contraction Bell adopted and promoted a relativistic thought experiment which became widely known as Bell's spaceship paradox.

Death edit

 
Blue plaque honouring John Bell at the Queen's University of Belfast

Bell died unexpectedly of a cerebral hemorrhage in Geneva in 1990.[32][33][34] Unknown to Bell, he had reportedly been nominated for a Nobel Prize that year.[35]: 3 [36]: 155 [1]: 374  His contribution to the issues raised by EPR was significant. Some regard him as having demonstrated the failure of local realism (local hidden variables). Bell's own interpretation is that locality itself met its demise.

Legacy edit

  • At the CERN site in Meyrin, close to Geneva, there is a street called Route Bell in honour of John Stewart Bell.
  • In 2016, his colleague from CERN, Reinhold Bertlmann, wrote a lengthy piece, "Bell's Universe: A Personal Recollection",[39] explaining in some detail his amazement at finding out about Bell's paper on Bertlmann's socks, in which Bell compared the EPR paradox with socks.
  • A day was named after him, referring to the date he released Bell's Theorem, 4 November.[40]

Northern Ireland edit

  • Since 2015, a street has been named Bell's Theorem Crescent in his city of birth, Belfast.[41]
  • The John Bell House, named in his honour, finished construction in 2016 and houses over 400 students in Belfast city centre.[42]
  • The pedestrian entrance to the Olympia leisure centre in Belfast located 200 meters from Bell's childhood home is named the "John Stewart Bell Entrance" in honour of the local man.[43]
  • In the Queen's University of Belfast one of the Physics lecture theatres is named in honour of John Stewart Bell.[44]
  • There is a blue plaque commemorating John Stewart Bell in Queen's university main campus
  • There is a blue plaque commemorating John Stewart Bell at his childhood home in Tates Avenue in Belfast
  • In 2017 the Institute of Physics commissioned classical composer Matthew Whiteside's Quartet No 4 (Entangled) to be performed at the 2018 NI Science Festival inspired by Bell's work;[45] the piece went on to become the title track on Whiteside's second album and was the inspiration for a short film by Marisa Zanotti.[46]

Books edit

  • Bell, John Stewart (2004). Speakable and Unspeakable in Quantum Mechanics (2nd ed.). Cambridge: Cambridge University Press. ISBN 978-0-521-52338-7. 2004 edition with introduction by Alain Aspect and two additional papers: ISBN 0-521-52338-9.

See also edit

Other work by Bell:

Footnotes edit

  1. ^ Bell could not be recognized since the Nobel prize is only awarded to living people.

References edit

  1. ^ a b Whitaker, Andrew (2016). John Stewart Bell and Twentieth-Century Physics: Vision and Integrity. Oxford: Oxford University Press. doi:10.1093/acprof:oso/9780198742999.001.0001. ISBN 978-0198742999. OCLC 960219296.
  2. ^ Burke, Philip G.; Percival, Ian C. (1999). "John Stewart Bell. 28 July 1928 – 1 October 1990: Elected F.R.S. 1972". Biographical Memoirs of Fellows of the Royal Society. 45: 1–17. doi:10.1098/rsbm.1999.0001. JSTOR 770260. S2CID 72616247.
  3. ^ "Bell, John Stewart | Encyclopedia.com". www.encyclopedia.com. Retrieved 23 April 2023.
  4. ^ Llewellyn Smith, C. H. (23 September 2004). "The Oxford Dictionary of National Biography". In Matthew, H. C. G.; Harrison, B. (eds.). Oxford Dictionary of National Biography (online ed.). Oxford: Oxford University Press. pp. ref:odnb/40025. doi:10.1093/ref:odnb/40025. Retrieved 25 November 2022. (Subscription or UK public library membership required.)
  5. ^ Shimony, Abner; Telegdi, Valentine; Veltman, Martinus (1991). "John S. Bell". Physics Today. 44 (8): 82–86. Bibcode:1991PhT....44h..82S. doi:10.1063/1.2810223.
  6. ^ O'Connor, John J.; Robertson, Edmund F., "John Stewart Bell", MacTutor History of Mathematics Archive, University of St Andrews
  7. ^ Whitaker, Andrew (1998). "John Bell and the most profound discovery of science". Physics World. 11 (12): 29–34. doi:10.1088/2058-7058/11/12/24.
  8. ^ Stapp, Henry P. (1975). "Bell's Theorem and World Process". Il Nuovo Cimento B. 29 (2): 270–276. Bibcode:1975NCimB..29..270S. doi:10.1007/BF02728310. S2CID 117358907.
  9. ^ "The Nobel Prize in Physics 2022". Nobel Foundation. 4 October 2022. from the original on 4 October 2022. Retrieved 6 October 2022.
  10. ^ a b c Aczel, Amir D. (2002). Entanglement: The Greatest Mystery in Physics. New York: Basic Books. ISBN 978-1-56858-232-0. OCLC 49649300.
  11. ^ Bell, Mary (2016). "Bell the vegetarian". Physics Today. 69 (8): 12. Bibcode:2016PhT....69h..12B. doi:10.1063/pt.3.3252.
  12. ^ Bell, Mary (2002). "Some Reminiscences". In Bertlmann, Reinhold A.; Zeilinger, Anton (eds.). Quantum [Un]speakables. The Frontiers Collection. Berlin: Springer. pp. 3–5. doi:10.1007/978-3-662-05032-3_1. ISBN 978-3-642-07664-0. Although an atheist for most of his life, while at Queen's University [John Bell] had many discussions with a Catholic friend, Denis McConalogue, about the devil, and even attended some meetings of the Student Christian Movement for the sake of argument.
  13. ^ People and things. 1990.
  14. ^ "Bell, John Stewart". Members of the Academy of Arts & Sciences, 1780–2010 (PDF). American Academy of Arts and Sciences. p. 41. Retrieved 8 October 2019.
  15. ^ Hardesty, Larry (12 September 2014). "Fluid mechanics suggests alternative to quantum orthodoxy". Phys.org. Science X. Retrieved 8 October 2019.
  16. ^ Zeh, H. D., "John Bell’s Varying Interpretations of Quantum Mechanics: Memories and Comments", in Mary Bell, Shan Gao (ed.), Quantum Nonlocality and Reality: 50 Years of Bell’s Theorem, (Cambridge University Press, 2016) ISBN 978-1-107-10434-1
  17. ^ John S. Bell, interview in The Ghost in the Atom: A Discussion of the Mysteries of Quantum Physics (1986) edited by P. C. W. Davies and Julian R. Brown
  18. ^ Bell, John Stewart (1964). "On the Einstein Podolsky Rosen paradox". Physics Physique Физика. 1 (3): 195–200. doi:10.1103/PhysicsPhysiqueFizika.1.195.
  19. ^ Einstein, Albert; Podolsky, Boris; Rosen, Nathan (1935). "Can quantum-mechanical description of physical reality be considered complete?". Physical Review. 47 (10): 777–780. Bibcode:1935PhRv...47..777E. doi:10.1103/PhysRev.47.777.
  20. ^ Sutton, Christine (4 November 2014). "Fifty years of Bell's theorem". CERN official website. CERN. Retrieved 8 October 2019. A paper by John Bell published on 4 November 1964 laid the foundations for the modern field of quantum-information science
  21. ^ a b c d e f g h Bell, John Stewart (1987). Speakable and Unspeakable in Quantum Mechanics. Cambridge: Cambridge University Press. ISBN 978-0-521-36869-8.
  22. ^ Bell, John Stewart (1966). "On the problem of hidden variables in quantum mechanics". Reviews of Modern Physics. 38 (3): 447–452. Bibcode:1966RvMP...38..447B. doi:10.1103/RevModPhys.38.447. OSTI 1444158.
  23. ^ von Neumann, John (1955). Mathematical Foundations of Quantum Mechanics. Princeton: Princeton University Press. ISBN 978-0-691-02893-4.
  24. ^ Soler, Léna (2009). "The Convergence of Transcendental Philosophy and Quantum Physics: Grete Henry-Hermann's 1935 Pioneering Proposal". In M. Bitbol; P. Kerszberg; J. Petitot (eds.). Constituting Objectivity. The Western Ontario Series in Philosophy of Science. Vol. 74. Springer. pp. 329–344. doi:10.1007/978-1-4020-9510-8_20. ISBN 978-1-4020-9509-2.
  25. ^ Mann, Charles; Crease, Robert (1988). "Interview: John Bell". Omni. 10 (8): 84–86, 88, 90, 92, 121.
  26. ^ Bub, Jeffrey (2010). "Von Neumann's 'no hidden variables' proof: a re-appraisal". Foundations of Physics. 40 (9–10): 1333–1340. arXiv:1006.0499. Bibcode:2010FoPh...40.1333B. doi:10.1007/s10701-010-9480-9. S2CID 118595119.
  27. ^ Bacciagaluppi, Guido; Crull, Elise (2009). "Heisenberg (and Schrödinger, and Pauli) on hidden variables". Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics. 40 (4): 374–382. Bibcode:2009SHPMP..40..374B. CiteSeerX 10.1.1.484.3421. doi:10.1016/j.shpsb.2009.08.004. S2CID 13140289. Non-contextual hidden variables are those that fix values or probabilities or expectation values for all quantum mechanical observables, independent of any experimental context. The impossibility proofs of von Neumann (1932), Gleason (1957), and Kochen and Specker (1967) refer to this kind of hidden variables.
  28. ^ Bernstein, Jeremy (1991). Quantum Profiles. Princeton: Princeton University Press. ISBN 978-0691087252. OCLC 21971886.
  29. ^ Sudbery, Anthony (2018). "John Bell and the Great Enterprise". Quanta. 7 (1): 68–73. arXiv:1808.06845. doi:10.12743/quanta.v7i1.79. MR 3894852. S2CID 53705805.
  30. ^ a b Bell, Mary; Gottfried, Kurt; Veltman, Martinus, eds. (1995). Quantum Mechanics, High Energy Physics and Accelerators: Selected Papers of John S. Bell (With Commentary). World Scientific Series in 20th Century Physics. Vol. 9. Singapore: World Scientific. Bibcode:1995qmhe.book.....B. doi:10.1142/2611. ISBN 9810221150.
  31. ^ a b Rafelski, Johann (2017). Relativity Matters: From Einstein's EMC2 to Laser Particle Acceleration and Quark-Gluon Plasma. Cham, Switzerland: Springer. doi:10.1007/978-3-319-51231-0. ISBN 978-3-319-51230-3.
  32. ^ Jackiw, R.; Shimony, A. (2008). "Bell, John Stewart". Complete Dictionary of Scientific Biography. Retrieved 8 October 2019.
  33. ^ Sullivan, W. (10 October 1990). "John Stewart Bell Is Dead at 62; Physicist Tested Particle Actions". The New York Times. Retrieved 8 October 2019.
  34. ^ Fraser, Gordon (1990). "John Stewart Bell 1928–1990". CERN Courier. 30 (8): 25.
  35. ^ Gilder, Louisa (2008). The Age of Entanglement: When Quantum Physics Was Reborn. New York: Alfred A. Knopf. ISBN 978-1-4000-4417-7. OCLC 608258970.
  36. ^ Bernstein, Jeremy (2009). Quantum Leaps. Cambridge, Massachusetts: Belknap Press: An Imprint of Harvard University Press. ISBN 978-0674035416. OCLC 648759731.
  37. ^ . Centre for Quantum Information and Quantum Control. University of Toronto. Archived from the original on 4 June 2014. Retrieved 8 October 2019.
  38. ^ . Centre for Quantum Information and Quantum Control. University of Toronto. Archived from the original on 2 December 2013. Retrieved 8 October 2019.
  39. ^ Bertlmann, Reinhold A. (2017). "Bell's Universe: A Personal Recollection". In Bertlmann, Reinhold A.; Zeilinger, Anton (eds.). Quantum [Un]Speakables II. The Frontiers Collection. Cham, Switzerland: Springer. pp. 17–80. arXiv:1605.08081. doi:10.1007/978-3-319-38987-5_3. ISBN 978-3-319-38985-1. S2CID 119259828.
  40. ^ "John Bell Day". RIA. The Royal Irish Academy. 2019. Retrieved 8 October 2019.
  41. ^ "John Bell: Belfast street named after physicist who proved Einstein wrong". BBC News. BBC. 19 February 2015. Retrieved 8 October 2019.
  42. ^ "John Bell House, Belfast". Accommodation for Students. 2019. Retrieved 8 October 2019.
  43. ^ "Sculpture celebrates football and physics links". Belfast City Council. 13 April 2018. Retrieved 8 October 2019.
  44. ^ . School of Maths and Physics. Queen's University Belfast. 2019. Archived from the original on 9 January 2019. Retrieved 8 October 2019.
  45. ^ "Classical CDs Weekly: Haydn, Mahler, Matthew Whiteside | reviews, news & interviews | The Arts Desk". theartsdesk.com. Retrieved 26 April 2021.
  46. ^ Archived at Ghostarchive and the : Quartet No. 4 (Entangled) composed by Matthew Whiteside and film by Marisa Zanotti, retrieved 26 April 2021

External links edit

 
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April 25, 2024
john, stewart, bell, other, people, with, same, name, john, bell, disambiguation, july, 1928, october, 1990, physicist, from, northern, ireland, originator, bell, theorem, important, theorem, quantum, physics, regarding, hidden, variable, theories, bell, 1982b. For other people with the same name see John Bell disambiguation John Stewart Bell FRS 2 28 July 1928 1 October 1990 3 was a physicist from Northern Ireland and the originator of Bell s theorem an important theorem in quantum physics regarding hidden variable theories 4 5 6 7 8 John Stewart BellBell in 1982BornJohn Stewart Bell28 July 1928Belfast Northern Ireland UKDied1 October 1990 aged 62 Geneva SwitzerlandAlma materQueen s University of Belfast BSc University of Birmingham PhD Known forBell s theoremBell stateBell s spaceship paradoxBell Kochen Specker theoremAdler Bell Jackiw anomalyChiral anomalyCPT symmetrySuperdeterminismQuantum entanglementAwardsHeineman Prize 1989 Hughes Medal 1989 Paul Dirac Medal and Prize 1988 Scientific careerInstitutionsAtomic Energy Research EstablishmentCERN Stanford UniversityThesisContribution to field theory i Time reversal in field theory ii Some functional methods in field theory 1956 Doctoral advisorRudolph E PeierlsOther academic advisorsPaul Taunton Matthews 1 137 In 2022 the Nobel Prize in Physics was awarded to Alain Aspect John Clauser and Anton Zeilinger for work on Bell inequalities and the experimental validation of Bell s theorem a 9 Contents 1 Biography 1 1 Early life and work 1 2 Bell s theorem 1 3 Critique of von Neumann s proof 1 4 Conclusions from experimental tests 1 5 Teaching special theory of relativity 1 6 Death 2 Legacy 2 1 Northern Ireland 3 Books 4 See also 5 Footnotes 6 References 7 External linksBiography editEarly life and work edit Bell was born in Belfast Northern Ireland When he was 11 years old he decided to be a scientist and at 16 graduated from Belfast Technical High School Bell then attended the Queen s University of Belfast where in 1948 he obtained a bachelor s degree in experimental physics and a year later a bachelor s degree in mathematical physics He went on to complete a PhD in physics at the University of Birmingham in 1956 specialising in nuclear physics and quantum field theory In 1954 he married Mary Ross also a physicist whom he had met while working on accelerator physics at Malvern UK 10 139 Bell became a vegetarian in his teen years 11 According to his wife Bell was an atheist 12 Bell s career began with the UK Atomic Energy Research Establishment near Harwell Oxfordshire known as AERE or Harwell Laboratory In 1960 he moved to work for the European Organization for Nuclear Research CERN Conseil Europeen pour la Recherche Nucleaire in Geneva Switzerland 13 There he worked almost exclusively on theoretical particle physics and on accelerator design but found time to pursue a major avocation investigating the foundations of quantum theory He was elected a Foreign Honorary Member of the American Academy of Arts and Sciences in 1987 14 Also of significance during his career Bell together with John Bradbury Sykes M J Kearsley and W H Reid translated several volumes of the ten volume Course of Theoretical Physics of Lev Landau and Evgeny Lifshitz making these works available to an English speaking audience in translation all of which remain in print Bell was a proponent of pilot wave theory 15 In 1987 inspired by Ghirardi Rimini Weber theory he also advocated collapse theories 16 He said about the interpretation of quantum mechanics Well you see I don t really know For me it s not something where I have a solution to sell 17 Bell s theorem edit Main article Bell s theorem nbsp Bell discussing Bell s inequality at CERN in 1982 In 1964 after a year s leave from CERN that he spent at Stanford University the University of Wisconsin Madison and Brandeis University Bell wrote a paper entitled On the Einstein Podolsky Rosen paradox 18 In this work he showed that carrying forward EPR s analysis 19 permits one to derive the famous Bell s theorem 20 The resultant inequality derived from basic assumptions that apply to all classical situations is violated by quantum theory There is some disagreement regarding what Bell s inequality in conjunction with the EPR analysis can be said to imply Bell held that not only local hidden variables but any and all local theoretical explanations must conflict with the predictions of quantum theory It is known that with Bohm s example of EPR correlations involving particles with spin there is an irreducible nonlocality 21 196 According to an alternative interpretation not all local theories in general but only local hidden variables theories or local realist theories have shown to be incompatible with the predictions of quantum theory Critique of von Neumann s proof edit Bell s interest in hidden variables was motivated by the existence in the formalism of quantum mechanics of a movable boundary between the quantum system and the classical apparatus A possibility is that we find exactly where the boundary lies More plausible to me is that we will find that there is no boundary The wave functions would prove to be a provisional or incomplete description of the quantum mechanical part of which an objective account would become possible It is this possibility of a homogeneous account of the world which is for me the chief motivation of the study of the so called hidden variable possibility 21 30 Bell was impressed that in the formulation of David Bohm s nonlocal hidden variable theory no such boundary is needed and it was this which sparked his interest in the field of research Bell also criticized the standard formalism of quantum mechanics on the grounds of lack of physical precision For the good books known to me are not much concerned with physical precision This is clear already from their vocabulary Here are some words which however legitimate and necessary in application have no place in a formulation with any pretension to physical precision system apparatus environment microscopic macroscopic reversible irreversible observable information measurement On this list of bad words from good books the worst of all is measurement 21 215 But if he were to thoroughly explore the viability of Bohm s theory Bell needed to answer the challenge of the so called impossibility proofs against hidden variables Bell addressed these in a paper entitled On the Problem of Hidden Variables in Quantum Mechanics 22 Bell had actually written this paper before his paper on the EPR paradox but it did not appear until two years later in 1966 due to publishing delays 10 144 Here he showed that John von Neumann s argument 23 does not prove the impossibility of hidden variables as was widely claimed due to its reliance on a physical assumption that is not valid for quantum mechanics namely that the probability weighted average of the sum of observable quantities equals the sum of the average values of each of the separate observable quantities 10 141 This flaw in von Neumann s proof had been previously discovered by Grete Hermann in 1935 but did not become common knowledge until after it was rediscovered by Bell 24 Bell reportedly said The proof of von Neumann is not merely false but foolish 25 88 In this same work Bell showed that a stronger effort at such a proof based upon Gleason s theorem also fails to eliminate the hidden variables program However in 2010 Jeffrey Bub published an argument that Bell and implicitly Hermann had misconstrued von Neumann s proof saying that it does not attempt to prove the absolute impossibility of hidden variables and is actually not flawed after all 26 Thus it was the physics community as a whole that had misinterpreted von Neumann s proof as applying universally Bub provides evidence that von Neumann understood the limits of his proof but there is no record of von Neumann attempting to correct the near universal misinterpretation which lingered for over 30 years and exists to some extent to this day Von Neumann s proof does not in fact apply to contextual hidden variables as in Bohm s theory 27 Conclusions from experimental tests edit In 1972 an experiment was conducted that when extrapolated to ideal detector efficiencies showed a violation of Bell s inequality It was the first of many such experiments Bell himself concluded from these experiments that It now seems that the non locality is deeply rooted in quantum mechanics itself and will persist in any completion 21 132 This according to Bell also implied that quantum theory is not locally causal and cannot be embedded into any locally causal theory Bell regretted that results of the tests did not agree with the concept of local hidden variables For me it is so reasonable to assume that the photons in those experiments carry with them programs which have been correlated in advance telling them how to behave This is so rational that I think that when Einstein saw that and the others refused to see it he was the rational man The other people although history has justified them were burying their heads in the sand So for me it is a pity that Einstein s idea doesn t work The reasonable thing just doesn t work 28 84 Bell seemed to have become resigned to the notion that future experiments would continue to agree with quantum mechanics and violate his inequality Referring to the Bell test experiments he remarked It is difficult for me to believe that quantum mechanics working very well for currently practical set ups will nevertheless fail badly with improvements in counter efficiency 21 109 Some people continue to believe that agreement with Bell s inequalities might yet be saved They argue that in the future much more precise experiments could reveal that one of the known loopholes for example the so called fair sampling loophole had been biasing the interpretations Most mainstream physicists are highly skeptical about all these loopholes admitting their existence but continuing to believe that Bell s inequalities must fail Bell remained interested in objective observer free quantum mechanics 29 He felt that at the most fundamental level physical theories ought not to be concerned with observables but with be ables The beables of the theory are those elements which might correspond to elements of reality to things which exist Their existence does not depend on observation 21 174 He remained impressed with Bohm s hidden variables as an example of such a scheme and he attacked the more subjective alternatives such as the Copenhagen interpretation 21 92 133 181 Teaching special theory of relativity edit Bell and his wife Mary Ross Bell also a physicist contributed substantially to the physics of particle accelerators and with numerous young theorists at CERN Bell developed particle physics itself An overview of this work is available in the volume of collected works edited by Mary Bell Kurt Gottfried and Martinus Veltman 30 Apart from his particle physics research Bell often raised an issue of special relativity comprehension and although there is only one written report on this topic available How to teach special relativity 21 67 80 this was a critical subject to him Bell admired Einstein s contribution to special relativity but warned in 1985 Einstein s approach is pedagogically dangerous in my opinion 31 ix In 1989 on the occasion of the centenary of the Lorentz FitzGerald body contraction Bell writes A great deal of nonsense has been written about the FitzGerald contraction 30 Bell preferred to think of Lorentz FitzGerald contraction as a phenomenon that is real and observable as a property of a material body which was also Einstein s opinion but in Bell s view Einstein s approach leaves a lot of room for misinterpretation This situation and the background of Bell s position is described in detail by his collaborator Johann Rafelski in the textbook Relativity Matters 2017 31 In order to combat misconceptions surrounding Lorentz FitzGerald body contraction Bell adopted and promoted a relativistic thought experiment which became widely known as Bell s spaceship paradox Death edit nbsp Blue plaque honouring John Bell at the Queen s University of Belfast Bell died unexpectedly of a cerebral hemorrhage in Geneva in 1990 32 33 34 Unknown to Bell he had reportedly been nominated for a Nobel Prize that year 35 3 36 155 1 374 His contribution to the issues raised by EPR was significant Some regard him as having demonstrated the failure of local realism local hidden variables Bell s own interpretation is that locality itself met its demise Legacy editIn 2008 the John Stewart Bell Prize was created by the Centre for Quantum Information and Quantum Control at the University of Toronto 37 The prize is awarded every other year for significant contributions first published during the six preceding years The award recognizes major advances relating to the foundations of quantum mechanics and to the applications of these principles In 2009 the first award was presented by Alain Aspect to Nicolas Gisin for his theoretical and experimental work on foundations and applications of quantum physics notably quantum nonlocality quantum cryptography and quantum teleportation 38 At the CERN site in Meyrin close to Geneva there is a street called Route Bell in honour of John Stewart Bell In 2016 his colleague from CERN Reinhold Bertlmann wrote a lengthy piece Bell s Universe A Personal Recollection 39 explaining in some detail his amazement at finding out about Bell s paper on Bertlmann s socks in which Bell compared the EPR paradox with socks A day was named after him referring to the date he released Bell s Theorem 4 November 40 Northern Ireland edit Since 2015 a street has been named Bell s Theorem Crescent in his city of birth Belfast 41 The John Bell House named in his honour finished construction in 2016 and houses over 400 students in Belfast city centre 42 The pedestrian entrance to the Olympia leisure centre in Belfast located 200 meters from Bell s childhood home is named the John Stewart Bell Entrance in honour of the local man 43 In the Queen s University of Belfast one of the Physics lecture theatres is named in honour of John Stewart Bell 44 There is a blue plaque commemorating John Stewart Bell in Queen s university main campus There is a blue plaque commemorating John Stewart Bell at his childhood home in Tates Avenue in Belfast In 2017 the Institute of Physics commissioned classical composer Matthew Whiteside s Quartet No 4 Entangled to be performed at the 2018 NI Science Festival inspired by Bell s work 45 the piece went on to become the title track on Whiteside s second album and was the inspiration for a short film by Marisa Zanotti 46 Books editBell John Stewart 2004 Speakable and Unspeakable in Quantum Mechanics 2nd ed Cambridge Cambridge University Press ISBN 978 0 521 52338 7 2004 edition with introduction by Alain Aspect and two additional papers ISBN 0 521 52338 9 See also editEpistemological Letters EPR paradox a thought experiment by Einstein Podolsky and Rosen published in 1935 as an attack on quantum theory Local hidden variable theory Quantum entanglement Bell s theorem published in 1964 Bell state Bell test experiments CHSH inequality an experiment practical formulation of Bell s theorem GHZ experiment Superdeterminism Other work by Bell Adler Bell Jackiw anomaly Bell s spaceship paradoxFootnotes edit Bell could not be recognized since the Nobel prize is only awarded to living people References edit a b Whitaker Andrew 2016 John Stewart Bell and Twentieth Century Physics Vision and Integrity Oxford Oxford University Press doi 10 1093 acprof oso 9780198742999 001 0001 ISBN 978 0198742999 OCLC 960219296 Burke Philip G Percival Ian C 1999 John Stewart Bell 28 July 1928 1 October 1990 Elected F R S 1972 Biographical Memoirs of Fellows of the Royal Society 45 1 17 doi 10 1098 rsbm 1999 0001 JSTOR 770260 S2CID 72616247 Bell John Stewart Encyclopedia com www encyclopedia com Retrieved 23 April 2023 Llewellyn Smith C H 23 September 2004 The Oxford Dictionary of National Biography In Matthew H C G Harrison B eds Oxford Dictionary of National Biography online ed Oxford Oxford University Press pp ref odnb 40025 doi 10 1093 ref odnb 40025 Retrieved 25 November 2022 Subscription or UK public library membership required Shimony Abner Telegdi Valentine Veltman Martinus 1991 John S Bell Physics Today 44 8 82 86 Bibcode 1991PhT 44h 82S doi 10 1063 1 2810223 O Connor John J Robertson Edmund F John Stewart Bell MacTutor History of Mathematics Archive University of St Andrews Whitaker Andrew 1998 John Bell and the most profound discovery of science Physics World 11 12 29 34 doi 10 1088 2058 7058 11 12 24 Stapp Henry P 1975 Bell s Theorem and World Process Il Nuovo Cimento B 29 2 270 276 Bibcode 1975NCimB 29 270S doi 10 1007 BF02728310 S2CID 117358907 The Nobel Prize in Physics 2022 Nobel Foundation 4 October 2022 Archived from the original on 4 October 2022 Retrieved 6 October 2022 a b c Aczel Amir D 2002 Entanglement The Greatest Mystery in Physics New York Basic Books ISBN 978 1 56858 232 0 OCLC 49649300 Bell Mary 2016 Bell the vegetarian Physics Today 69 8 12 Bibcode 2016PhT 69h 12B doi 10 1063 pt 3 3252 Bell Mary 2002 Some Reminiscences In Bertlmann Reinhold A Zeilinger Anton eds Quantum Un speakables The Frontiers Collection Berlin Springer pp 3 5 doi 10 1007 978 3 662 05032 3 1 ISBN 978 3 642 07664 0 Although an atheist for most of his life while at Queen s University John Bell had many discussions with a Catholic friend Denis McConalogue about the devil and even attended some meetings of the Student Christian Movement for the sake of argument People and things 1990 Bell John Stewart Members of the Academy of Arts amp Sciences 1780 2010 PDF American Academy of Arts and Sciences p 41 Retrieved 8 October 2019 Hardesty Larry 12 September 2014 Fluid mechanics suggests alternative to quantum orthodoxy Phys org Science X Retrieved 8 October 2019 Zeh H D John Bell s Varying Interpretations of Quantum Mechanics Memories and Comments in Mary Bell Shan Gao ed Quantum Nonlocality and Reality 50 Years of Bell s Theorem Cambridge University Press 2016 ISBN 978 1 107 10434 1 John S Bell interview in The Ghost in the Atom A Discussion of the Mysteries of Quantum Physics 1986 edited by P C W Davies and Julian R Brown Bell John Stewart 1964 On the Einstein Podolsky Rosen paradox Physics Physique Fizika 1 3 195 200 doi 10 1103 PhysicsPhysiqueFizika 1 195 Einstein Albert Podolsky Boris Rosen Nathan 1935 Can quantum mechanical description of physical reality be considered complete Physical Review 47 10 777 780 Bibcode 1935PhRv 47 777E doi 10 1103 PhysRev 47 777 Sutton Christine 4 November 2014 Fifty years of Bell s theorem CERN official website CERN Retrieved 8 October 2019 A paper by John Bell published on 4 November 1964 laid the foundations for the modern field of quantum information science a b c d e f g h Bell John Stewart 1987 Speakable and Unspeakable in Quantum Mechanics Cambridge Cambridge University Press ISBN 978 0 521 36869 8 Bell John Stewart 1966 On the problem of hidden variables in quantum mechanics Reviews of Modern Physics 38 3 447 452 Bibcode 1966RvMP 38 447B doi 10 1103 RevModPhys 38 447 OSTI 1444158 von Neumann John 1955 Mathematical Foundations of Quantum Mechanics Princeton Princeton University Press ISBN 978 0 691 02893 4 Soler Lena 2009 The Convergence of Transcendental Philosophy and Quantum Physics Grete Henry Hermann s 1935 Pioneering Proposal In M Bitbol P Kerszberg J Petitot eds Constituting Objectivity The Western Ontario Series in Philosophy of Science Vol 74 Springer pp 329 344 doi 10 1007 978 1 4020 9510 8 20 ISBN 978 1 4020 9509 2 Mann Charles Crease Robert 1988 Interview John Bell Omni 10 8 84 86 88 90 92 121 Bub Jeffrey 2010 Von Neumann s no hidden variables proof a re appraisal Foundations of Physics 40 9 10 1333 1340 arXiv 1006 0499 Bibcode 2010FoPh 40 1333B doi 10 1007 s10701 010 9480 9 S2CID 118595119 Bacciagaluppi Guido Crull Elise 2009 Heisenberg and Schrodinger and Pauli on hidden variables Studies in History and Philosophy of Science Part B Studies in History and Philosophy of Modern Physics 40 4 374 382 Bibcode 2009SHPMP 40 374B CiteSeerX 10 1 1 484 3421 doi 10 1016 j shpsb 2009 08 004 S2CID 13140289 Non contextual hidden variables are those that fix values or probabilities or expectation values for all quantum mechanical observables independent of any experimental context The impossibility proofs of von Neumann 1932 Gleason 1957 and Kochen and Specker 1967 refer to this kind of hidden variables Bernstein Jeremy 1991 Quantum Profiles Princeton Princeton University Press ISBN 978 0691087252 OCLC 21971886 Sudbery Anthony 2018 John Bell and the Great Enterprise Quanta 7 1 68 73 arXiv 1808 06845 doi 10 12743 quanta v7i1 79 MR 3894852 S2CID 53705805 a b Bell Mary Gottfried Kurt Veltman Martinus eds 1995 Quantum Mechanics High Energy Physics and Accelerators Selected Papers of John S Bell With Commentary World Scientific Series in 20th Century Physics Vol 9 Singapore World Scientific Bibcode 1995qmhe book B doi 10 1142 2611 ISBN 9810221150 a b Rafelski Johann 2017 Relativity Matters From Einstein s EMC2 to Laser Particle Acceleration and Quark Gluon Plasma Cham Switzerland Springer doi 10 1007 978 3 319 51231 0 ISBN 978 3 319 51230 3 Jackiw R Shimony A 2008 Bell John Stewart Complete Dictionary of Scientific Biography Retrieved 8 October 2019 Sullivan W 10 October 1990 John Stewart Bell Is Dead at 62 Physicist Tested Particle Actions The New York Times Retrieved 8 October 2019 Fraser Gordon 1990 John Stewart Bell 1928 1990 CERN Courier 30 8 25 Gilder Louisa 2008 The Age of Entanglement When Quantum Physics Was Reborn New York Alfred A Knopf ISBN 978 1 4000 4417 7 OCLC 608258970 Bernstein Jeremy 2009 Quantum Leaps Cambridge Massachusetts Belknap Press An Imprint of Harvard University Press ISBN 978 0674035416 OCLC 648759731 John Stewart Bell Prize Centre for Quantum Information and Quantum Control University of Toronto Archived from the original on 4 June 2014 Retrieved 8 October 2019 Prof Nicolas Gisin awarded the First Bell Prize Centre for Quantum Information and Quantum Control University of Toronto Archived from the original on 2 December 2013 Retrieved 8 October 2019 Bertlmann Reinhold A 2017 Bell s Universe A Personal Recollection In Bertlmann Reinhold A Zeilinger Anton eds Quantum Un Speakables II The Frontiers Collection Cham Switzerland Springer pp 17 80 arXiv 1605 08081 doi 10 1007 978 3 319 38987 5 3 ISBN 978 3 319 38985 1 S2CID 119259828 John Bell Day RIA The Royal Irish Academy 2019 Retrieved 8 October 2019 John Bell Belfast street named after physicist who proved Einstein wrong BBC News BBC 19 February 2015 Retrieved 8 October 2019 John Bell House Belfast Accommodation for Students 2019 Retrieved 8 October 2019 Sculpture celebrates football and physics links Belfast City Council 13 April 2018 Retrieved 8 October 2019 Location School of Maths and Physics Queen s University Belfast 2019 Archived from the original on 9 January 2019 Retrieved 8 October 2019 Classical CDs Weekly Haydn Mahler Matthew Whiteside reviews news amp interviews The Arts Desk theartsdesk com Retrieved 26 April 2021 Archived at Ghostarchive and the Wayback Machine Quartet No 4 Entangled composed by Matthew Whiteside and film by Marisa Zanotti retrieved 26 April 2021External links edit nbsp Wikiquote has quotations related to John Stewart Bell nbsp Wikimedia Commons has media related to John Stewart Bell physicist Retrieved from https en wikipedia org w index php title John Stewart Bell amp oldid 1220327047, wikipedia, wiki, book, books, library,

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