Antony Valentini (born 28 January 1965) is a British-Italian theoretical physicist known for his work on the foundations of quantum physics.[1]

Antony Valentini
Born
Antony Valentini

(1965-01-28) 28 January 1965 (age 59)
Alma mater
Known for
Scientific career
Fields
Institutions
ThesisOn the Pilot-Wave Theory of Classical, Quantum and Subquantum Physics (1992)
Doctoral advisorDennis Sciama

Education and career

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Valentini obtained an undergraduate degree from Cambridge University, then earned his Ph.D. in 1992[2] with Dennis Sciama at the International School for Advanced Studies (ISAS-SISSA) in Trieste, Italy.[1][3] In 1999, after seven years in Italy, he took up a post-doc grant to work at the Imperial College with Lee Smolin and Christopher Isham.[1]

He worked at the Perimeter Institute for Theoretical Physics. In February 2011, he became professor of physics and astronomy at Clemson University; as of 2022, he was listed as adjunct faculty.[4][5]

Together with Mike Towler, Royal Society research fellow of the University of Cambridge's Cavendish Laboratory, he organized a conference on the de Broglie-Bohm theory the Apuan Alps Centre for Physics in August 2010, hosted by the Towler Institute located in Vallico di Sotto in Tuscany, Italy, which is loosely associated with the Theory of Condensed Matter group of the Cavendish Laboratory.[6][7] Among the questions announced for discussion, the organizers included "Why should young people be interested in these ideas, when showing interest in quantum foundations still might harm their careers?"[8]

Work

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Valentini has been working on an extension of the causal interpretation of quantum theory. This interpretation had been proposed in conceptual terms in 1927 by Louis de Broglie, was independently re-discovered by David Bohm who brought it to a complete and systematic form in 1952, and was expanded on by Bohm and Hiley. Emphasizing de Broglie's contribution, Valentini has consistently referred to the causal interpretation of quantum mechanics underlying his work as the "de Broglie–Bohm theory".

Quantum equilibrium, locality and uncertainty

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In 1991, Valentini provided indications for deriving the quantum equilibrium hypothesis which states that   in the frame work of the pilot wave theory. Valentini showed that the relaxation    may be accounted for by a H-theorem constructed in analogy to the Boltzmann H-theorem of statistical mechanics. Valentini showed that his expansion of the De Broglie–Bohm theory would allow "signal nonlocality" for non-equilibrium cases in which   .[9][10][11] According to Valentini, the universe is fundamentally nonlocal, and quantum theory merely describes a special equilibrium state in which nonlocality is hidden in statistical noise.[12] He furthermore showed that an ensemble of particles with known wave function and known nonequilibrium distribution could be used to perform, on another system, measurements that violate the uncertainty principle.[13]

In 1992, Valentini extended pilot wave theory to spin-  fields and to gravitation.[14]

Background and implications

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Valentini has been described as an "ardent admirer of de Broglie". He noted that "de Broglie (rather like Maxwell) emphasized an underlying 'mechanical' picture: particles were assumed to be singularities of physical waves in space".[15] He emphasized that de Broglie, with the assistance of Erwin Schrödinger, had constructed pilot wave theory, but later abandoned it in favor of quantum formalism.[3]

Valentini's derivation of the quantum equilibrium hypothesis was criticized by Detlef Dürr and co-workers in 1992, and the derivation of the quantum equilibrium hypothesis has remained a topic of active investigation.[16]

"Signal nonlocality", which is forbidden in orthodox quantum theory, would allow nonlocal quantum entanglement to be used as a stand-alone communication channel without the need of a classical light-speed limited retarded signal to unlock the entangled message from the sender to the receiver. This would be a major revolution in physics and would possibly make the cosmic landscape string theory Popper falsifiable.

Publications

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Book
  • Guido Bacciagaluppi, Antony Valentini: Quantum theory at the crossroads: Reconsidering the 1927 Solvay Conference, Cambridge Univ. Press, 2009, ISBN 978-0-521-81421-8
Articles
  • Antony Valentini, Hans Westman: Dynamical origin of quantum probabilities, Proceedings of the Royal Society A 8, vol. 461, no. 2053 p. 253-272, January 2005, doi:10.1098/rspa.2004.1394
  • Antony Valentini: Subquantum information and computation, 2002, Pramana Journal of Physics, vol. 59, no. 2, August 2002, p. 269–277
  • Antony Valentini: Signal-locality in hidden-variables theories, Physics Letters A, vol. 297, no. 5-6, 20 May 2002, p. 273-278 online from arxiv.org
  • Antony Valentini: Hidden Variables, Statistical Mechanics and the Early Universe, Chance in Physics, Lecture Notes in Physics, Springer 2001, Volume 574/2001, 165–181, doi:10.1007/3-540-44966-3_12 arXiv:quant-ph/0104067
  • Antony Valentini: On Galilean and Lorentz invariance in pilot-wave dynamics, Physics Letters A, 228, 215–222, 1997 online from arxiv.org
  • Antony Valentini: Pilot-wave theory of fields, gravitation and cosmology, in: James T. Cushing, Arthur Fine, Sheldon Goldstein (eds.): Bohmian mechanics and quantum theory: an appraisal, Kluwer Academic Publishers, 1996, p. 45–66 (a brief outline by Valentini of his work of 1991–1996 on the de Broglie–Bohm theory)
  • Antony Valentini: On the Pilot-Wave Theory of Classical, Quantum and Subquantum Physics, Ph.D. Thesis, ISAS, Trieste 1992
  • Antony Valentini: Signal-locality, uncertainty, and the sub-quantum H-theorem, II, Physics Letters A, vol. 158, no. 1, 1991, p. 1–8
  • Antony Valentini: Signal-locality, uncertainty, and the sub-quantum H-theorem, I, Physics Letters A, vol. 156, no. 5, 1991
  • Antony Valentini: Resolution of causality violation in the classical radiation reaction, Physical Review Letters vol. 61, no. 17, p. 1903–1905, 1988

References

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  1. ^ a b c Lee Smolin: The Trouble With Physics: The Rise of String Theory, The Fall of a Science, and What Comes Next, First Mariner book edition 2007, ISBN 978-0-618-55105-7, p. 322 and p. 326
  2. ^ Antony Valentini Archived September 28, 2011, at the Wayback Machine at the Perimeter Institute (downloaded March 4, 2012)
  3. ^ a b Antony Valentini: On the Pilot-Wave Theory of Classical, Quantum and Subquantum Physics, Ph.D. Thesis, ISAS, Trieste 1992
  4. ^ Clemson University Newcomers Archived May 16, 2011, at the Wayback Machine, published May 2, 2011
  5. ^ "Antony Valentini". clemson.edu. Retrieved 2022-01-23.
  6. ^ The Towler Institute
  7. ^ 21st century directions in de Broglie–Bohm theory and beyond, Clemson University Physics and Astronomy Newsletter, vol. 5, no. 1, 2010
  8. ^ 21st-century directions in de Broglie-Bohm theory and beyond, 2010 event announcement at vallico.net
  9. ^ James T. Cushing: Quantum mechanics: historical contingency and the Copenhagen hegemony, The University of Chicago Press, 1994, ISBN 0-226-13202-1, p. 163
  10. ^ Antony Valentini: Signal-locality, uncertainty, and the sub-quantum H-theorem, I, Physics Letters A, vol. 156, no. 5, 1991
  11. ^ Antony Valentini: Hidden variables and the large-scale structure of space-time, in: William Lane Craig, Quentin Smith (eds.): Einstein, Relativity and Absolute Simultaneity, Routledge, 2007, ISBN 978-0-415-70174-7, pp. 125–155, p. 126
  12. ^ Antony Valentini: Subquantum information and computation, 2002, Pramana Journal of Physics, vol. 59, no. 2, August 2002, p. 269–277, p. 270
  13. ^ Antony Valentini: Subquantum information and computation, 2002, Pramana Journal of Physics, vol. 59, no. 2, August 2002, p. 269–277, p. 272
  14. ^ James T. Cushing: Quantum mechanics: historical contingency and the Copenhagen hegemony, The University of Chicago Press, 1994, ISBN 0-226-13202-1, p. 270
  15. ^ Antony Valentini: Pilot-wave theory of fields, gravitation and cosmology, in: James T. Cushing, Arthur Fine, Sheldon Goldstein (eds.): Bohmian mechanics and quantum theory: an appraisal, Kluwer Academic Publishers, 1996, p. 45–66, p. 47.
  16. ^ Peter J. Riggs: Quantum Causality: Conceptual Issues in the Causal Theory of Quantum Mechanics, Studies in History and Philosophy of Science 23, Springer, 2009, ISBN 978-90-481-2402-2, doi:10.1007/978-90-481-2403-9, p. 76
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