Square of White Noise Unitary Evolutions on Boson Fock Space

Let H = L2 (R) be the Hilbert space of all complex-valued square integrable functions defined on R, Ф = Γ(H) be the Boson Fock space over H. For each h ∈ H, denote by ε(h) the corresponding exponential vector:in particular ε(0) is the Fock vacuum.

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The Unitarity Conditions for the Square of White Noise

Infinite Dimensional Analysis Quantum Probability and Related Topics ◽

10.1142/s0219025703001183 ◽

2003 ◽

Vol 06 (02) ◽

pp. 197-222 ◽

Cited By ~ 6

Author(s):

Luigi Accardi ◽

Andreas Boukas

Keyword(s):

White Noise ◽

Fock Space ◽

Multiplication Table ◽

Space Representation ◽

Boson Fock Space

The renormalized stochastic differentials of the square of white noise are defined in Boson–Fock space representation. The Itô multiplication table of these differentials and the module form of the unitarity conditions are obtained.

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FOCK FACTORIZATION OF B-VALUED ANALYTIC MAPPINGS ON A HILBERT INDUCTIVE LIMIT

Bulletin of the Australian Mathematical Society ◽

10.1017/s000497270900077x ◽

2009 ◽

Vol 81 (2) ◽

pp. 236-250

Author(s):

CAISHI WANG ◽

YULAN ZHOU ◽

DECHENG FENG ◽

QI HAN

Keyword(s):

Banach Space ◽

White Noise ◽

Inductive Limit ◽

Fock Space ◽

Continuous Linear Operator ◽

Characterization Theorem ◽

Cartesian Products ◽

Multilinear Mappings ◽

Boson Fock Space ◽

Necessary And Sufficient

AbstractLet 𝒩* be a Hilbert inductive limit and X a Banach space. In this paper, we obtain a necessary and sufficient condition for an analytic mapping Ψ:𝒩*↦X to have a factorization of the form Ψ=T∘ℰ, where ℰ is the exponential mapping on 𝒩* and T:Γ(𝒩*)↦X is a continuous linear operator, where Γ(𝒩*) denotes the Boson Fock space over 𝒩*. To prove this result, we establish some kernel theorems for multilinear mappings defined on multifold Cartesian products of a Hilbert space and valued in a Banach space, which are of interest in their own right. We also apply the above factorization result to white noise theory and get a characterization theorem for white noise testing functionals.

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Singular Bogoliubov transformations and inequivalent representations of canonical commutation relations

Reviews in Mathematical Physics ◽

10.1142/s0129055x19500260 ◽

2019 ◽

Vol 31 (08) ◽

pp. 1950026 ◽

Cited By ~ 1

Author(s):

Asao Arai

Keyword(s):

Fock Space ◽

Sufficient Conditions ◽

Bogoliubov Transformation ◽

Fock Representation ◽

Canonical Commutation Relations ◽

Commutation Relations ◽

Direct Sum ◽

Boson Fock Space ◽

Inequivalent Representations ◽

Bogoliubov Transformations

We introduce a concept of singular Bogoliubov transformation on the abstract boson Fock space and construct a representation of canonical commutation relations (CCRs) which is inequivalent to any direct sum of the Fock representation. Sufficient conditions for the representation to be irreducible are formulated. Moreover, an example of such representations of CCRs is given.

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MATRIX THEORY, HILBERT SCHEME AND INTEGRABLE SYSTEM

Modern Physics Letters A ◽

10.1142/s0217732398002904 ◽

1998 ◽

Vol 13 (34) ◽

pp. 2731-2742 ◽

Cited By ~ 1

Author(s):

YUTAKA MATSUO

Keyword(s):

Hilbert Scheme ◽

Matrix Theory ◽

Fock Space ◽

Homology Class ◽

Orthogonal Basis ◽

Inner Product ◽

Virasoro Symmetry ◽

Hilbert Scheme Of Points ◽

The Matrix ◽

Boson Fock Space

We give a reinterpretation of the matrix theory discussed by Moore, Nekrasov and Shatashivili (MNS) in terms of the second quantized operators which describes the homology class of the Hilbert scheme of points on surfaces. It naturally relates the contribution from each pole to the inner product of orthogonal basis of free boson Fock space. These bases can be related to the eigenfunctions of Calogero–Sutherland (CS) equation and the deformation parameter of MNS is identified with coupling of CS system. We discuss the structure of Virasoro symmetry in this model.

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Realization of Unitary q-White Noise on Fock Space

Probability Measures on Groups X ◽

10.1007/978-1-4899-2364-6_28 ◽

1991 ◽

pp. 377-386

Author(s):

Michael Schürmann

Keyword(s):

White Noise ◽

Fock Space

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LOCALIZATION OF THE NUMBER OF PHOTONS OF GROUND STATES IN NONRELATIVISTIC QED

Reviews in Mathematical Physics ◽

10.1142/s0129055x03001667 ◽

2003 ◽

Vol 15 (03) ◽

pp. 271-312 ◽

Cited By ~ 7

Author(s):

FUMIO HIROSHIMA

Keyword(s):

Radiation Field ◽

Ground State ◽

Fock Space ◽

Adjoint Operator ◽

Ground States ◽

Electron System ◽

Number Operator ◽

Position Variable ◽

Boson Fock Space ◽

Quantized Radiation Field

One electron system minimally coupled to a quantized radiation field is considered. It is assumed that the quantized radiation field is massless, and no infrared cutoff is imposed. The Hamiltonian, H, of this system is defined as a self-adjoint operator acting on L2 (ℝ3) ⊗ ℱ ≅ L2 (ℝ3; ℱ), where ℱ is the Boson Fock space over L2 (ℝ3 × {1, 2}). It is shown that the ground state, ψg, of H belongs to [Formula: see text], where N denotes the number operator of ℱ. Moreover, it is shown that for almost every electron position variable x ∈ ℝ3 and for arbitrary k ≥ 0, ‖(1 ⊗ Nk/2) ψg (x)‖ℱ ≤ Dk e-δ|x|m+1 with some constants m ≥ 0, Dk > 0, and δ > 0 independent of k. In particular [Formula: see text] for 0 < β < δ/2 is obtained.

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White noise delta functions and continuous version theorem

Nagoya Mathematical Journal ◽

10.1017/s0027763000004293 ◽

1993 ◽

Vol 129 ◽

pp. 1-22

Author(s):

Nobuaki Obata

Keyword(s):

White Noise ◽

Harmonic Analysis ◽

Quantum Physics ◽

Fock Space ◽

Continuous Version ◽

Infinite Dimensional ◽

Schwartz Distribution ◽

Delta Functions ◽

Gelfand Triple ◽

Gaussian Space

The recently developed Hida calculus of white noise [5] is an infinite dimensional analogue of Schwartz’ distribution theory besed on the Gelfand triple (E) ⊂ (L2) = L2 (E*, μ) ⊂ (E)*, where (E*, μ) is Gaussian space and (L2) is (a realization of) Fock space. It has been so far discussed aiming at an application to quantum physics, for instance [1], [3], and infinite dimensional harmonic analysis [7], [8], [13], [14], [15].

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