Gerald Sacks
Gerald Enoch Sacks (1933 – October 4, 2019) was a logician whose most important contributions were in recursion theory. Named after him is Sacks forcing, a forcing notion based on perfect sets[1] and the Sacks Density Theorem, which asserts that the partial order of the recursively enumerable Turing degrees is dense.[2] Sacks had a joint appointment as a professor at the Massachusetts Institute of Technology and at Harvard University starting in 1972 and became emeritus at M.I.T. in 2006 and at Harvard in 2012.[3][4][5]
Sacks was born in Brooklyn in 1933. He earned his Ph.D. in 1961 from Cornell University under the direction of J. Barkley Rosser, with a dissertation entitled On Suborderings of Degrees of Recursive Insolvability. Among his notable students are Lenore Blum, Harvey Friedman, Sy Friedman, Leo Harrington, Richard Shore, Steve Simpson and Theodore Slaman.[6]
Selected publications
- Degrees of unsolvability, Princeton University Press 1963, 1966[7]
- Saturated Model Theory, Benjamin 1972; 2nd edition, World Scientific 2010[8]
- Higher Recursion theory, Springer 1990[9]
- Selected Logic Papers, World Scientific 1999[10]
- Mathematical Logic in the 20th Century, World Scientific 2003
References
- Halbeisen, Lorenz J. (2011), Combinatorial Set Theory: With a Gentle Introduction to Forcing, Springer Monographs in Mathematics, Springer, pp. 380–381, ISBN 9781447121732.
- Soare, Robert I. (1987), Recursively Enumerable Sets and Degrees: A Study of Computable Functions and Computably Generated Sets, Perspectives in Mathematical Logic, Springer, p. 245, ISBN 9783540152996.
- Short CV, retrieved 2015-06-26.
- "Professor Gerald Sacks Retires from MIT" (PDF), Integral: News from the Mathematics Department at MIT, 1: 6, Autumn 2006.
- Chi Tat Chong, Yue Yang, "An interview with Gerald E. Sacks", Recursion Theory: Computational Aspects of Definability, ISBN 3110275643, 2015, p. 275
- Gerald Sacks at the Mathematics Genealogy Project
- Review of Degrees of unsolvability by Kenneth Appel, MR0186554
- Review of Saturated model theory by P. Stepanek, MR0398817
- Review of Higher recursion theory by Dag Normann, MR1080970
- Review of Selected logic papers by Dag Normann, MR1783306