Richard Laver

Richard Laver

Richard Laver (October 20, 1942 – September 19, 2012) was an American mathematician, working in set theory.

Biography

Laver received his PhD at the University of California, Berkeley in 1969, under the supervision of Ralph McKenzie,[1] with a thesis on Order Types and Well-Quasi-Orderings. The largest part of his career he spent as Professor and later Emeritus Professor at the University of Colorado at Boulder.

Richard Laver died in Boulder, CO, on September 19, 2012 after a long illness.[2]

Research contributions

Among Laver's notable achievements some are the following.

See also

Notes and references

  1. Ralph McKenzie has been a doctoral student of James Donald Monk, who has been a doctoral student of Alfred Tarski.
  2. Obituary, European Set Theory Society
  3. R. Laver: On Fraïssé's order type conjecture, Ann. of Math. (2), 93 (1971), 89111.
  4. R. Laver: An order type decomposition theorem, Ann. of Math., 98 (1973), 96119.
  5. R. Laver: On the consistency of Borel's conjecture, Acta Math., 137 (1976), 151169.
  6. R. Laver: Making the supercompactness of κ indestructible under κ-directed closed forcing, Israel J. Math., 29 (1978), 385388.
  7. Collegium Logicum: Annals of the Kurt-Gödel Society, Volume 9, Springer Verlag, 2006, p. 31.
  8. R. Laver, S. Shelah: The 2 Souslin hypothesis, Trans. Amer. Math. Soc., 264 (1981), 411417.
  9. R. Laver: Products of infinitely many perfect trees, Journal of the London Math. Soc., 29 (1984), 385396.
  10. R. Laver: The left-distributive law and the freeness of an algebra of elementary embeddings, Advances in Mathematics, 91 (1992), 209231.
  11. R. Laver: The algebra of elementary embeddings of a rank into itself, Advances in Mathematics, 110 (1995), 334346.
  12. R. Laver: Braid group actions on left distributive structures, and well orderings in the braid groups, Jour. Pure and Applied Algebra, 108 (1996), 8198.
  13. R. Laver: Certain very large cardinals are not created in small forcing extensions, Annals of Pure and Applied Logic, 149 (2007) 16.
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