607 research outputs found
Finite Rank Bargmann-Toeplitz Operators with Non-Compactly Supported Symbols
Theorems about characterization of finite rank Toeplitz operators in
Fock-Segal-Bargmann spaces, known previously only for symbols with compact
support, are carried over to symbols without that restriction, however with a
rather rapid decay at infinity. The proof is based upon a new version of the
Stone-Weierstrass approximation theorem
The finite rank theorem for Toeplitz operators in the Fock space
We consider Toeplitz operators in the Fock space, under rather general
conditions imposed on the symbols. It is proved that if the operator has finite
rank and the symbol is a function then the operator and the symbol should be
zero. The method of proving is different from the one used previously for
finite rank theorems, and it enables one to get rid of the compact support
condition for symbols imposed previously.Comment: 11 page
Toeplitz operators defined by sesquilinear forms: Fock space case
The classical theory of Toeplitz operators in spaces of analytic functions
deals usually with symbols that are bounded measurable functions on the domain
in question. A further extension of the theory was made for symbols being
unbounded functions, measures, and compactly supported distributions, all of
them subject to some restrictions.
In the context of a reproducing kernel Hilbert space we propose a certain
framework for a `maximally possible' extension of the notion of Toeplitz
operators for a `maximally wide' class of `highly singular' symbols. Using the
language of sesquilinear forms we describe a certain common pattern for a
variety of analytically defined forms which, besides covering all previously
considered cases, permits us to introduce a further substantial extension of a
class of admissible symbols that generate bounded Toeplitz operators.
Although our approach is unified for all reproducing kernel Hilbert spaces,
for concrete operator consideration in this paper we restrict ourselves to
Toeplitz operators acting on the standard Fock (or Segal-Bargmann) space
On spectral estimates for the Schr\"odinger operators in global dimension 2
The problem of finding eigenvalue estimates for the Schr\"odinger operator
turns out to be most complicated for the dimension 2. Some important results
for this case have been obtained recently. We discuss these results and
establish their counterparts for the operators on the combinatorial and metric
graphs corresponding to the lattice Z^2
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