Jump to content

Albert Muchnik

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by Bender the Bot (talk | contribs) at 04:15, 14 October 2016 (top: http→https for Google Books and Google News using AWB). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Albert Abramovich Muchnik (born 1934) is a Russian mathematician who worked in the field of foundations and mathematical logic.

He received his Ph.D from Moscow State Pedagogical Institute in 1959 under the advisorship of Pyotr Novikov.[1] Muchnik's most significant contribution was on the subject of relative computability. He and Richard Friedberg, independently introduced the priority method which gave an affirmative answer to Post's Problem regarding the existence of re Turing degrees between 0 and 0' . This groundbreaking result, now known as the Friedberg-Muchnik Theorem,[2][3] opened a wide study of the Turing degrees of the recursively enumerable sets which turned out to possess a very complicated and non-trivial structure. He also has a significant contribution in the subject of mass problems where he introduced the generalisation of Turing degrees, called "Muchnik degrees" in his work On Strong and Weak Reducibilities of Algorithmic Problems published in 1963.[4] Muchnik also elaborated Kolmogorov's proposal of viewing intuitionism as "calculus of problems" and proved that the lattice of Muchnik degrees is Brouwerian.

Muchnik is married to the Russian mathematician Nadezhda Ermolaeva, and their son Andrej, who died in 2007, was also a mathematician working in foundations of mathematics.[5]

Selected publications

References

  1. ^ Albert Abramovich Muchnik, Mathematics Genealogy Project. Accessed January 26, 2010
  2. ^ Robert I. Soare, Recursively Enumberable Sets and Degrees: A Study of Computable Functions and Computably Generated Sets. Springer-Verlag, 1999, ISBN 3-540-15299-7; p. 118
  3. ^ Nikolai Vereshchagin, Alexander Shen, Computable functions. American Mathematical Society, 2003, ISBN 0-8218-2732-4; p. 85
  4. ^ A. A. Muchnik, On strong and weak reducibility of algorithmic problems. (Russian) Siberian Mathematical Journal, vol. 4 (1963), pp. 1328–1341
  5. ^ S. I. Adian, A. L. Semenov, V. A. Uspenskii, Andrei Albertovich Muchnik,Template:Icon ru Uspekhi Matematicheskikh Nauk, vol. 62 (2007), no. 4, pp. 140–144