Alexander Markovich Polyakov Explained

Alexander Markovich Polyakov (Russian: Алекса́ндр Ма́ркович Поляко́в; born 27 September 1945) is a Russian theoretical physicist, formerly at the Landau Institute in Moscow and, since 1989, at Princeton University, where he is the Joseph Henry Professor of Physics Emeritus.^{[1] [2]}

Important discoveries

Polyakov is known for a number of fundamental contributions to quantum field theory, including work on what is now called the 't Hooft–Polyakov monopole in non-Abelian gauge theory, independent from Gerard 't Hooft. Polyakov and coauthors discovered the so-called BPST instanton which, in turn, led to the discovery of the vacuum angle in QCD.^{[3] [4]} His path integral formulation of string theory^[5] had profound and lasting impacts on the conceptual and mathematical understanding of the theory. His paper "Infinite conformal symmetry in two-dimensional quantum field theory"^[6] written with Alexander Belavin and Alexander Zamolodchikov laid down the foundations of two-dimensional conformal field theory and has classic status.^[1] Polyakov also played an important role in elucidating the conceptual framework behind renormalization independent of Kenneth G. Wilson's Nobel Prize–winning work. He formulated pioneering ideas in gauge/string duality long before the breakthrough of AdS/CFT using D-branes. Other insightful conjectures that came years or even decades before active work by others include integrability of gauge and string theories and certain ideas about turbulence.

Very early in his career, in a 1965 student work, Polyakov suggested (with Alexander Migdal) a dynamical Higgs mechanism, slightly after but independently^[7] from the publications of Peter Higgs and others. The paper was delayed by the Editorial Office of JETP, and was published only in 1966.^[8]

Honors and awards

Alexander Polyakov was awarded the Dirac Medal of the ICTP and the Dannie Heineman Prize for Mathematical Physics in 1986, the Lorentz Medal in 1994, the Oskar Klein Medal in 1996, the Harvey Prize in 2010, the Lars Onsager Prize (together with A. Belavin and A. Zamolodchikov) in 2011 and the Breakthrough Prize in Fundamental Physics in 2013. On 19 November 2020 the German Physical Society announced it would award Alexander Polyakov the 2021 Max Planck Medal.

Polyakov was elected to the Soviet Academy of Sciences in 1984,^[9] to the French Academy of Sciences in 1998^[10] and the U.S. National Academy of Sciences (NAS) in 2005.^{[11] [12]}

Political positions

In February-March 2022, he signed an open letter by Russian scientists condemning the 2022 Russian invasion of Ukraine,^[13] and another open letter by Breakthrough Prize laureates with the same message.^[14]

Famous quotes

“The garbage of the past often becomes the treasure of the present (and vice versa).”^[15]

“There are no tables for path integrals.” (quoted in ^[16])

“I wanted to learn about elementary particles by studying boiling water.” ^[17] (paraphrased in ^[18])

See also

• Polyakov action
• 't Hooft–Polyakov monopole
• Belavin–Polyakov–Schwarz–Tyupkin instantons
• QCD vacuum
• Conformal bootstrap
• Liouville theory
• AdS/CFT correspondence

External links

• Dirac Medal 1986 citation
• Departmental homepage at Princeton

Notes and References

1. Princeton celebrates Polyakov's 60th. CERN Courier. Mar 1. 2. 2006. 2007-09-22. https://web.archive.org/web/20110709210059/http://cerncourier.com/cws/article/cern/29554/2. 2011-07-09. dead.
2. Web site: Alexander Polyakov | Department of Physics.
3. Belavin AA. Polyakov AM. Schwartz AS. Tyupkin YS. Pseudoparticle solutions of the Yang-Mills equations. Phys. Lett. B. 59. 1. 85–7. 1975. 10.1016/0370-2693(75)90163-X. 1975PhLB...59...85B .
4. Polyakov AM. Quark confinement and topology of gauge theories. Nucl. Phys. B. 120. 3. 429–58. 1977. 10.1016/0550-3213(77)90086-4. 1977NuPhB.120..429P .
5. Polyakov AM. Quantum geometry of bosonic strings. Phys. Lett. B. 103. 3. 207–10. 1981. 10.1016/0370-2693(81)90743-7. 1981PhLB..103..207P .
6. Belavin AA. Polyakov AM. Zamolodchikov AB. Infinite conformal symmetry in two-dimensional quantum field theory. Nucl. Phys. B. 241. 2. 333–80. 1984. 10.1016/0550-3213(84)90052-X. 1984NuPhB.241..333B .
7. hep-th/9211140. A View from the Island. Polyakov. A. 1992.
8. A. A. Migdal and A. M. Polyakov, "Spontaneous Breakdown of Strong Interaction Symmetry and Absence of Massless Particles", Soviet Physics JETP, July 1966
9. http://www.ras.ru/win/db/show_per.asp?P=.id-617.ln-ru Alexander M. Polyakov
10. https://www.academie-sciences.fr/fr/Liste-des-membres-de-l-Academie-des-sciences-/-P/alexander-polyakov.html Alexander Polyakov
11. http://www.nasonline.org/site/Dir/1028252604?pg=vprof&mbr=1006687&returl=http%3A%2F%2Fwww.nasonline.org%2Fsite%2FDir%2F1028252604 Polyakov, Alexandre
12. http://news.ictp.it/index.php?p=76 Dirac Medalist Elected to NAS
13. Web site: Открытое письмо российских учёных и научных журналистов против войны с Украиной . 24 February 2022 . 2 April 2022 . ru . An open letter from Russian scientists and scientific journalist against the war in Ukraine.
14. https://breakthroughprize.org/News/69 An open letter from Breakthrough Prize laureates
15. Book: Polyakov , Alexander . Harwood Academic Publishers. 978-3-7186-0393-0. Gauge Fields and Strings. London, UK. 1987.
16. Book: Auerbach , Assa . Springer. 978-0-387-94286-5. Interacting Electrons and Quantum Magnetism. New York. 1994.
17. Web site: Interview with Alexander Polyakov . Polyakov . Alexander . 2003 . Dibner Institute for the history of science and technology . 2019-10-16 .
18. Web site: IPhT's theoretical physics courses: lorentzian methods in conformal field theory . Rychkov . Slava . 2019 . . 2019-10-16 .