Born: 1921. Died: 2004.
It is difficult to underestimate the luminous shadow cast by Gerard Debreu over Neo-Walrasian general equilibrium theory. For many years, Gerard Debreu has set the standard as well as posed most of the questions (and, in many cases, provided many of the solutions) that were to be addressed by mathematical economics - an achievement paralleled only by his intellectual brother-in-arms Kenneth J. Arrow.
Debreu learnt his mathematics at the Bourbakist Ecole Normale Superieure and his economics from the works of Maurice Allais. He later became one of the most prominent and active inmates at the Cowles Commission before moving to Berkeley in 1962. Debreu's terse masterpiece, The Theory of Value (1959) remains the definitive statement of Neo-Walrasian theory in its purest, axiomatic form.
Debreu's output may have been relatively sparse, but each one of his contributions have been prodigious. He independently discovered the proofs for the First and Second Welfare theorems (1951, 1954) and rigorously derived the conditions under which a utility function can represent a preference ordering (1954). With Kenneth J. Arrow, Debreu provided one of the first simple proofs of existence of a competitive equilibrium (1954). He also developed the first proof that the set of equilibria are finite and thus that equilibria are locally unique (1970).
Equally fundamental, Debreu developed (with Herbert Scarf) the famous theorem on "core convergence" in a replicated economy (1962, 1963), provided tools for other more general core convergence theorems (e.g. 1967) and was one of the first to determine the rate of that convergence (1975).
Gerard Debreu also opened many conceptual pathways for later researchers: he introduced the concept of a "quasi-equilibrium" (1962), the idea that a bundle of goods and their prices may be represented as a linear space and its dual (1954), integrated the concept of uncertainty into G.E. via state-contingent commodities (1959), developed the idea of "neighoring agents" as representable by the topology on a measure space (1969), defined the concept of "smooth preferences" which permitted the re-introduction of the differential calculus into mathematical economics (1972), as well as undertook the first venture into infinite-dimensional commodity spaces (1954). One of his better known pieces of work is that on market demand functions (1974), which yielded the famously destructive Debreu-Sonnenschein-Mantel theorem.
The full depth and impact of his work is difficult to assess much less summarize adequately. A survey of some of Debreu's major achievements can be found in the linked survey of Walrasian General Equilibrium Theory. The Nobel Prize committee referred to his entire life's work, with the Theory of Value (1959) underlined in particular, in awarding Gerard Debreu a Nobel Memorial Prize in 1983. He has taught at the University of California at Berkeley for most of his career.
- Existence of Competitive Equilibrium, 1982, in Arrow and Intriligator, Handbook of Mathematical Economics Vol. 2
- General Equilibrium Theory, 1996
- Innovation and Research: An Economist's Viewpoint on Uncertainty, 1994, Nobelists for the Future
- Landmark Papers in General Equilibrium Theory, Social Choice and Welfare, with Kenneth J. Arrow, 2002
- The Limit of the Core of an Economy, with H. Scarf, 1972, in McGuire and Radner, editors, Decision and Organization
- Mathematical Economics: Twenty Papers of Gerard Debreu, 1983
- Random walk and life philosophy, 1991, in American Economist
- Representation of a Preference Ordering by a Numerical Function, 1954, in Thrall et al., editors, Decision Processes
- The Theory of Value: An Axiomatic Analysis of Economic Equilibrium, 1959
- Topological Methods in Cardinal Utility Theory, 1960, in Arrow, Karlin and Suppes, editors, Mathematical Methods in the Social Sciences
- 1951, The Coefficient of Resource Utilization, Econometrica
- 1952, A Social Equilibrium Existence Theorem, PNAS
- 1952, Definite and Semi-Defnite Quadratic Forms, Econometrica
- 1953, Nonnegative Square Matrices, with I.N. Herstein, Econometrica
- 1954, A Classical Tax-Subsidy Problem, Econometrica
- 1954, Existence of an Equilibrium for a Competitive Economy, with Kenneth J.Arrow, Econometrica
- 1954, Valuation Equilibrium and Pareto Optimum, PNAS
- 1954, Numerical Representations of Technological Change, Metroeconomica
- 1956, Market Equilibrium, PNAS
- 1958, Stochastic Choice and Cardinal Utility, Econometrica
- 1959, Cardinal Utility for Even-Chance Mixtures of Pairs of Sure Prospects, RES
- 1960, On 'An Identity in Arithmetic', Proceedings of AMS
- 1960, Economics Under Uncertainty, Economie Appliquee
- 1962, New Concepts and Techniques for Equilibrium Analysis, IER
- 1963, A Limit Theorem on the Core of an Economy, with H.Scarf, IER
- 1963, On a Theorem by Scarf, RES
- 1964, Contuinity Properties of Paretian Utility, IER
- 1967, Integration of Correspondences, Proceedings of Fifth Berkeley Symposium
- 1967, Preference Functions of Measure Spaces of Economic Agents, Econometrica
- 1970, Economies with a Finite Set of Equilibria, Econometrica
- 1972, Smooth Preferences, Econometrica
- 1974, Excess Demand Functions, JMathE
- 1974, Four Aspects of the Mathematical Theory of Economic Equilibrium, Proceedings of Int'l Congress of Mathematicians
- 1975, The Rate of Convergence of the Core of an Economy, JMathE
- 1976, The Application to Economics of Differential Topology and Global Analysis: Regular Differentiable Economies, AER
- 1976, Least Concave Utility Functions, JMathE
- 1982, Additively Decomposed Quasiconcave Functions, with T.C.Koopmans, Mathematical Programming
- 1984, Economic Theory in a Mathematical Mode: the Nobel lecture, AER
- 1986, Theoretic Models: Mathematical Form and Economic Content, Econometrica
- 1991, The Mathematization of Economic Theory, AER
- 1994, Innovation and Research: An Economist's Viewpoint on Uncertainty, Nobelists for the Future