E. T. Jaynes | |
Birth Date: | 5 July 1922 |
Birth Place: | Waterloo, Iowa |
Death Place: | St. Louis, Missouri |
Field: | Physicist |
Work Institutions: | Washington University in St. Louis |
Education: | Cornell College Princeton University |
Doctoral Advisor: | Eugene Wigner |
Thesis Title: | An electronic theory of ferroelectricity |
Thesis Year: | 1948 |
Known For: | Maximum entropy thermodynamics Bayesian theory Jaynes–Cummings model |
Edwin Thompson Jaynes (July 5, 1922 – April 30,[1] 1998) was the Wayman Crow Distinguished Professor of Physics at Washington University in St. Louis. He wrote extensively on statistical mechanics and on foundations of probability and statistical inference, initiating in 1957 the maximum entropy interpretation of thermodynamics[2] [3] as being a particular application of more general Bayesian/information theory techniques (although he argued this was already implicit in the works of Josiah Willard Gibbs). Jaynes strongly promoted the interpretation of probability theory as an extension of logic.
In 1963, together with Fred Cummings, he modeled the evolution of a two-level atom in an electromagnetic field, in a fully quantized way. This model is known as the Jaynes–Cummings model.
A particular focus of his work was the construction of logical principles for assigning prior probability distributions; see the principle of maximum entropy, the principle of maximum caliber, the principle of transformation groups[4] [5] and Laplace's principle of indifference. Other contributions include the mind projection fallacy.
Jaynes' book, Probability Theory: The Logic of Science (2003) gathers various threads of modern thinking about Bayesian probability and statistical inference, develops the notion of probability theory as extended logic, and contrasts the advantages of Bayesian techniques with the results of other approaches. This book, which he dedicated to Harold Jeffreys, was published posthumously in 2003 (from an incomplete manuscript that was edited by Larry Bretthorst).