2,206 research outputs found
Quantum Calogero-Moser systems: a view from infinity
Various infinite-dimensional versions of Calogero-Moser operator are
discussed in relation with the theory of symmetric functions and representation
theory of basic classical Lie superlagebras. This is a version of invited talk
given by the second author at XVI International Congress on Mathematical
Physics in Prague, August 2009.Comment: 6 pages, to appear in Proceedings of XVI International Congress on
Mathematical Physics, Prague, August 200
Dunkl operators at infinity and Calogero-Moser systems
We define the Dunkl and Dunkl-Heckman operators in infinite number of
variables and use them to construct the quantum integrals of the
Calogero-Moser-Sutherland problems at infinity. As a corollary we have a simple
proof of integrability of the deformed quantum CMS systems related to classical
Lie superalgebras. We show how this naturally leads to a quantum version of the
Moser matrix, which in the deformed case was not known before.Comment: 22 pages. Corrected version with minor change
Deformed quantum Calogero-Moser problems and Lie superalgebras
The deformed quantum Calogero-Moser-Sutherland problems related to the root
systems of the contragredient Lie superalgebras are introduced. The
construction is based on the notion of the generalized root systems suggested
by V. Serganova. For the classical series a recurrent formula for the quantum
integrals is found, which implies the integrability of these problems. The
corresponding algebras of the quantum integrals are investigated, the explicit
formulas for their Poincare series for generic values of the deformation
parameter are presented.Comment: 30 pages, 1 figur
On invariance of specific mass increment in the case of non-equilibrium growth
It is the first time invariance of specific mass increments of crystalline
structures that co-exist in the case of non-equilibrium growth is grounded
using the maximum entropy production principle. Based on the hypothesis of the
existence of a universal growth equation, with the use of dimensional analysis,
an explicit form of the dependence of specific mass increment on time is
proposed. Applicability of the obtained results for describing growth in
animate nature is discussed.Comment: 5 page
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