Intuitionistic fuzzy unitary operator on intuitionistic fuzzy Hilbert space

In this work, we propose a method to investigate the factorization property of a adjontable Markov operator between two algebraic probability spaces without using the dilation theory. Assuming the existence of an anti-unitary operator on Hilbert space related to Stinespring representations of our Markov operator, which satisfy some particular modular relations, we prove that it admits a factorization. The method is tested on the two typologies of maps which we know admits a factorization, the Markov operators between commutative probability spaces and adjontable homomorphism. Subsequently, we apply these methods to particular adjontable Markov operator between matrix algebra which fixes the diagonal.

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Perturbations of AF-Algebras

Canadian Journal of Mathematics ◽

10.4153/cjm-1979-093-8 ◽

1979 ◽

Vol 31 (5) ◽

pp. 1012-1016 ◽

Cited By ~ 11

Author(s):

John Phillips ◽

Iain Raeburn

Keyword(s):

Hilbert Space ◽

Unit Ball ◽

Von Neumann Algebra ◽

Unitary Operator ◽

Affirmative Answer ◽

Positive Answer ◽

Von Neumann ◽

Finite Dimensional ◽

Image Position ◽

Af Algebras

Let A and B be C*-algebras acting on a Hilbert space H, and letwhere A1 is the unit ball in A and d(a, B1) denotes the distance of a from B1. We shall consider the following problem: if ‖A – B‖ is sufficiently small, does it follow that there is a unitary operator u such that uAu* = B?Such questions were first considered by Kadison and Kastler in [9], and have received considerable attention. In particular in the case where A is an approximately finite-dimensional (or hyperfinite) von Neumann algebra, the question has an affirmative answer (cf [3], [8], [12]). We shall show that in the case where A and B are approximately finite-dimensional C*-algebras (AF-algebras) the problem also has a positive answer.

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On Products of Symmetries

Canadian Journal of Mathematics ◽

10.4153/cjm-1966-090-5 ◽

1966 ◽

Vol 18 ◽

pp. 897-900 ◽

Cited By ~ 12

Author(s):

Peter A. Fillmore

Keyword(s):

Hilbert Space ◽

Von Neumann Algebra ◽

Unitary Operator ◽

Type Ii ◽

Central Projections ◽

Von Neumann ◽

Infinite Dimensional ◽

Infinite Dimensional Hilbert Space ◽

Principal Tool ◽

The Subject

In (2) Halmos and Kakutani proved that any unitary operator on an infinite-dimensional Hilbert space is a product of at most four symmetries (self-adjoint unitaries). It is the purpose of this paper to show that if the unitary is an element of a properly infinite von Neumann algebraA(i.e., one with no finite non-zero central projections), then the symmetries may be chosen fromA.A principal tool used in establishing this result is Theorem 1, which was proved by Murray and von Neumann (6, 3.2.3) for type II1factors; see also (3, Lemma 5). The author would like to thank David Topping for raising the question, and for several stimulating conversations on the subject. He is also indebted to the referee for several helpful suggestions.

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Spectral Type of One-Parameter Group of Unitary Operators with Transversal Group

Nagoya Mathematical Journal ◽

10.1017/s0027763000026623 ◽

1968 ◽

Vol 32 ◽

pp. 141-153 ◽

Cited By ~ 2

Author(s):

Masasi Kowada

Keyword(s):

Hilbert Space ◽

Probability Measure ◽

Spectral Type ◽

Measure Space ◽

Unitary Operator ◽

Separable Hilbert Space ◽

Unitary Operators ◽

Parameter Group ◽

Probability Measure Space

It is an important problem to determine the spectral type of automorphisms or flows on a probability measure space. We shall deal with a unitary operator U and a 1-parameter group of unitary operators {Ut} on a separable Hilbert space H, and discuss their spectral types, although U and {Ut} are not necessarily supposed to be derived from an automorphism or a flow respectively.

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On Self-Adjoint Factorization of Operators

Canadian Journal of Mathematics ◽

10.4153/cjm-1969-156-6 ◽

1969 ◽

Vol 21 ◽

pp. 1421-1426 ◽

Cited By ~ 4

Author(s):

Heydar Radjavi

Keyword(s):

Hilbert Space ◽

Linear Operator ◽

Bounded Linear Operator ◽

Unitary Operator ◽

Normal Operator ◽

Complex Hilbert Space ◽

Bounded Linear ◽

Infinite Dimensional ◽

Normal Operators ◽

Adjoint Operators

The main result of this paper is that every normal operator on an infinitedimensional (complex) Hilbert space ℋ is the product of four self-adjoint operators; our Theorem 4 is an actually stronger result. A large class of normal operators will be given which cannot be expressed as the product of three self-adjoint operators.This work was motivated by a well-known resul t of Halmos and Kakutani (3) that every unitary operator on ℋ is the product of four symmetries, i.e., operators that are self-adjoint and unitary.1. By “operator” we shall mean bounded linear operator. The space ℋ will be infinite-dimensional (separable or non-separable) unless otherwise specified. We shall denote the class of self-adjoint operators on ℋ by and that of symmetries by .

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Mutually unbiased unitary bases of operators on d-dimensional hilbert space

International Journal of Quantum Information ◽

10.1142/s0219749919410260 ◽

2020 ◽

Vol 18 (01) ◽

pp. 1941026 ◽

Cited By ~ 1

Author(s):

Rinie N. M. Nasir ◽

Jesni Shamsul Shaari ◽

Stefano Mancini

Keyword(s):

Hilbert Space ◽

Hilbert Spaces ◽

Unitary Operator ◽

Dimensional Subspace ◽

Mutually Unbiased Bases ◽

Unitary Operators ◽

Dimension Formula ◽

Dimensional Hilbert Space ◽

Prime Dimension

Analogous to the notion of mutually unbiased bases for Hilbert spaces, we consider mutually unbiased unitary bases (MUUBs) for the space of operators, [Formula: see text], acting on such Hilbert spaces. The notion of MUUB reflects the equiprobable guesses of unitary operators in one basis of [Formula: see text] when estimating a unitary operator in another. Though, for prime dimension [Formula: see text], the maximal number of MUUBs is known to be [Formula: see text], there is no known recipe for constructing them, assuming they exist. However, one can always construct a minimum of three MUUBs, and the maximal number is approached for very large values of [Formula: see text]. MUUBs can also exist for some [Formula: see text]-dimensional subspace of [Formula: see text] with the maximal number being [Formula: see text].

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Some notes on complex symmetric operators

e-Journal of Analysis and Applied Mathematics ◽

10.2478/ejaam-2021-0006 ◽

2021 ◽

Vol 2021 (1) ◽

pp. 90-96

Author(s):

Marcos S. Ferreira

Keyword(s):

Hilbert Space ◽

Unitary Operator ◽

Separable Hilbert Space ◽

Polar Decomposition ◽

Bounded Operator ◽

Complex Symmetric ◽

Symmetric Operators

Abstract In this paper we show that every conjugation C on the Hardy-Hilbert space H 2 is of type C = T * 𝒥T, where T is an unitary operator and 𝒥 f ( z ) = f ( z ¯ ) ¯ \mathcal{J}f\left( z \right) = \overline {f\left( {\bar z} \right)} with f ∈ H 2. Moreover we prove some relations of complex symmetry between the operators T and |T|, where T = U |T| is the polar decomposition of bounded operator T ∈ ℒ(ℋ) on the separable Hilbert space ℋ.

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On Compact Perturbations of Operators

Canadian Journal of Mathematics ◽

10.4153/cjm-1974-024-3 ◽

1974 ◽

Vol 26 (1) ◽

pp. 247-250 ◽

Cited By ~ 1

Author(s):

Joel Anderson

Keyword(s):

Hilbert Space ◽

Compact Operator ◽

Unitary Operator ◽

General Theorem ◽

Infinite Dimensional ◽

Infinite Dimensional Hilbert Space ◽

Dimensional Hilbert Space ◽

Compact Perturbations ◽

Small Norm

Recently R. G. Douglas showed [4] that if V is a nonunitary isometry and U is a unitary operator (both acting on a complex, separable, infinite dimensional Hilbert space ), then V — K is unitarily equivalent to V ⊕ U (acting on ⊕ ) where K is a compact operator of arbitrarily small norm. In this note we shall prove a much more general theorem which seems to indicate "why" Douglas' theorem holds (and which yields Douglas' theorem as a corollary).

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Spectral properties of holomorphic automorphism with fixed point

Glasgow Mathematical Journal ◽

10.1017/s0017089500006297 ◽

1986 ◽

Vol 28 (1) ◽

pp. 25-30 ◽

Cited By ~ 2

Author(s):

T. Mazur ◽

M. Skwarczyński

Keyword(s):

Hilbert Space ◽

Fixed Point ◽

Spectral Properties ◽

Unitary Operator ◽

Biholomorphic Mapping ◽

Holomorphic Automorphism ◽

Image Position

The Hilbert space methods in the theory of biholomorphic mappings were applied and developed by S. Bergman [1, 2]. In this approach the central role is played by the Hilbert space L2H(D) consisting of all functions which are square integrable and holomorphic in a domain D ⊂ ℂN. A biholomorphic mapping φ:D ⃗ G induces the unitary mapping Uφ:L2H(G) ⃗ L2H(D) defined by the formulaHere ∂φ/∂z denotes the complex Jacobian of φ. The mapping Uϕ is useful, since it permits to replace a problem for D by a problem for its biholomorphic image G (see for example [11], [13]). When ϕ is an automorphism of D we obtain a unitary operator Uϕ on L2H(D).

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The isometries of Hp(K)

Journal of the Australian Mathematical Society. Series A. Pure Mathematics and Statistics ◽

10.1017/s1446788700032523 ◽

1991 ◽

Vol 50 (1) ◽

pp. 23-33 ◽

Cited By ~ 1

Author(s):

Pei-Kee Lin

Keyword(s):

Hilbert Space ◽

Unit Disc ◽

Unitary Operator ◽

Complex Hilbert Space ◽

Conformal Map ◽

Image Position

AbstractLet 1 ≤ p < ∞, p ≠ 2 and let K be any complex Hilbert space. We prove that every isometry T of Hp(K) onto itself is of the form , where U ia a unitary operator on K and φ is a conformal map of the unit disc onto itself.

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