Paul Wiegmann : Notable Achievements and Scientific Recognition, Awards and Distinguished Appointments, Publications Wikipedia, the free encyclopedia

Paul Wiegmann

Paul Wiegmann
Paul Wiegmann
Born	(1952-11-08) November 8, 1952 (age 71) Ryazan, Russia
Nationality	Russian
Alma mater	Moscow Institute of Physics and Technology, 1975 Landau Institute for Theoretical Physics, 1984
Known for	Exact Solution of Kondo model, O(3) Non-linear Sigma Model
Scientific career
Fields	Theoretical Physics
Institutions	University of Chicago
Doctoral advisor	Anatoly Larkin

Paul B. Wiegmann (Павел Борисович Вигман) is a Russian physicist. He is the Robert W. Reneker Distinguished Service Professor in the Department of Physics at the University of Chicago, James Franck Institute and Enrico Fermi Institute.^[1] He specializes in theoretical condensed matter physics. He made pioneering contributions to the field of quantum integrable systems. He found exact solutions of O(3) Non-linear Sigma Model, (Wiegmann 1985), Wess–Zumino–Witten model (together with Alexander Polyakov), Anderson impurity model and multi-channel Kondo model (with Alexei Tsvelik).^[2]

Notable Achievements and Scientific Recognition

In 2003, Paul Wiegmann was elected a Fellow of the American Physical Society, the official citation ^[3] indicating that the recognition was "For exact solutions of models of interacting electronic systems and quantum field theory, including the multi-channel Kondo problem and the Anderson model for magnetic impurities."

Awards and Distinguished Appointments

Lady Davis Fellowship, 2000
Humboldt Research Award, Alexander von Humboldt Foundation, 2002 ^[4]
Fellow of American Physical Society, 2003
Kramers Chair, Spinoza Institute, 2003
Blaise Pascal Chair, Ile de France, 2006
Lars Onsager Prize, 2017

Publications

Tsvelick, A.M.; Wiegmann, P.B. (1983). "Exact results in the theory of magnetic alloys". Advances in Physics. 32 (4). Taylor & Francis: 453–713. Bibcode:1983AdPhy..32..453T. doi:10.1080/00018738300101581.
Wiegmann, Paul (1985). "Exact solution of O(3) nonlinear two-dimensional sigma model". JETP Letters. 41 (2). JETP Letters: 95–100. Bibcode:1985JETPL..41...95W.
Polyakov, A.M.; Wiegmann, P.B. (1984). "Goldstone fields in two dimensions with multivalued actions". Physics Letters. B 141 (3–4). Physics Letters: 223–228. Bibcode:1984PhLB..141..223P. doi:10.1016/0370-2693(84)90206-5.

According to the Inspire High-Energy Physics ^[5] database, Paul Wiegmann's author profile includes more than 2700 citations, several very well-known papers, and famous papers, and over 45 citations per article.

References

^ "University of Chicago page about Paul Wiegmann".
^ Fateev, V.A.; Wiegmann, P.B. (1981). "Physics Letters A: The exact solution of the s-d exchange model with arbitrary impurity spin S (Kondo problem)". Physics Letters A. 81 (2–3): 179–184. doi:10.1016/0375-9601(81)90056-6.
^ "American Physical Society DCMP Fellows, 2003".
^ Koppes, Steve; Susie Allen; William Harms (May 16, 2011). "From humanities to sciences, six faculty members receive named appointments". University of Chicago. Retrieved 5 January 2013.
^ "Inspire High-Energy Physics".