501 research outputs found

    UHF flows and the flip automorphism

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    A UHF flow is an infinite tensor product type action of the reals on a UHF algebra AA and the flip automorphism is an automorphism of A⊗AA\otimes A sending x⊗yx\otimes y into y⊗xy\otimes x. If α\alpha is an inner perturbation of a UHF flow on AA, there is a sequence (un)(u_n) of unitaries in A⊗AA\otimes A such that αt⊗αt(un)−un\alpha_t\otimes \alpha_t(u_n)-u_n converges to zero and the flip is the limit of \Ad u_n. We consider here whether the converse holds or not and solve it with an additional assumption: If A⊗A≅AA\otimes A\cong A and α\alpha absorbs any UHF flow β\beta (i.e., α⊗β\alpha\otimes\beta is cocycle conjugate to α\alpha), then the converse holds; in this case α\alpha is what we call a universal UHF flow.Comment: 18 page

    Cauchy Problem and Green's Functions for First Order Differential Operators and Algebraic Quantization

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    Existence and uniqueness of advanced and retarded fundamental solutions (Green's functions) and of global solutions to the Cauchy problem is proved for a general class of first order linear differential operators on vector bundles over globally hyperbolic Lorentzian manifolds. This is a core ingredient to CAR-/CCR-algebraic constructions of quantum field theories on curved spacetimes, particularly for higher spin field equations.Comment: revised version: typos; reordering of sec 2; results unchange

    Validity and failure of some entropy inequalities for CAR systems

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    Basic properties of von Neumann entropy such as the triangle inequality and what we call MONO-SSA are studied for CAR systems. We show that both inequalities hold for any even state. We construct a certain class of noneven states giving counter examples of those inequalities. It is not always possible to extend a set of prepared states on disjoint regions to some joint state on the whole region for CAR systems. However, for every even state, we have its `symmetric purification' by which the validity of those inequalities is shown. Some (realized) noneven states have peculiar state correlations among subsystems and induce the failure of those inequalities.Comment: 14 pages, latex, to appear in JMP. Some typos are correcte

    Endomorphism Semigroups and Lightlike Translations

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    Certain criteria are demonstrated for a spatial derivation of a von Neumann algebra to generate a one-parameter semigroup of endomorphisms of that algebra. These are then used to establish a converse to recent results of Borchers and of Wiesbrock on certain one-parameter semigroups of endomorphisms of von Neumann algebras (specifically, Type III_1 factors) that appear as lightlike translations in the theory of algebras of local observables.Comment: 9 pages, Late

    The Measure of a Measurement

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    While finite non-commutative operator systems lie at the foundation of quantum measurement, they are also tools for understanding geometric iterations as used in the theory of iterated function systems (IFSs) and in wavelet analysis. Key is a certain splitting of the total Hilbert space and its recursive iterations to further iterated subdivisions. This paper explores some implications for associated probability measures (in the classical sense of measure theory), specifically their fractal components. We identify a fractal scale ss in a family of Borel probability measures μ\mu on the unit interval which arises independently in quantum information theory and in wavelet analysis. The scales ss we find satisfy s∈R+s\in \mathbb{R}_{+} and s≠1s\not =1, some s1s 1. We identify these scales ss by considering the asymptotic properties of μ(J)/∣J∣s\mu(J) /| J| ^{s} where JJ are dyadic subintervals, and ∣J∣→0| J| \to0.Comment: 18 pages, 3 figures, and reference

    Separability for lattice systems at high temperature

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    Equilibrium states of infinite extended lattice systems at high temperature are studied with respect to their entanglement. Two notions of separability are offered. They coincide for finite systems but differ for infinitely extended ones. It is shown that for lattice systems with localized interaction for high enough temperature there exists no local entanglement. Even more quasifree states at high temperature are also not distillably entangled for all local regions of arbitrary size. For continuous systems entanglement survives for all temperatures. In mean field theories it is possible, that local regions are not entangled but the entanglement is hidden in the fluctuation algebra

    Endomorphisms of B(H). II. Finitely Correlated States on On

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    AbstractWe identify sets of conjugacy classes of ergodic endomorphisms of B(H) where H is a fixed separable Hilbert space. They correspond to certain equivalence classes of pure states on the Cuntz algebras Onwherenis the Powers index. These states, called finitely correlated states, and strongly asymptotically shift invariant states, are defined and characterized. The subsets of these states defining shifts will in general be identified in a later work, but here an interesting cross section for the conjugacy classes of shifts called diagonalizable shifts is introduced and studied

    Wavelets in mathematical physics: q-oscillators

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    We construct representations of a q-oscillator algebra by operators on Fock space on positive matrices. They emerge from a multiresolution scaling construction used in wavelet analysis. The representations of the Cuntz Algebra arising from this multiresolution analysis are contained as a special case in the Fock Space construction.Comment: (03/11/03):18 pages; LaTeX2e, "article" document class with "letterpaper" option An outline was added under the abstract (p.1), paragraphs added to Introduction (p.2), mat'l added to Proofs in Theorems 1 and 6 (pgs.5&17), material added to text for the conclusion (p.17), one add'l reference added [12]. (04/22/03):"number 1" replace with "term C" (p.9), single sentences reformed into a one paragraph (p.13), QED symbol moved up one paragraph and last paragraph labeled as "Concluding Remarks.

    Microscopic Conductivity of Lattice Fermions at Equilibrium - Part I: Non-Interacting Particles

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    We consider free lattice fermions subjected to a static bounded potential and a time- and space-dependent electric field. For any bounded convex region R⊂Rd\mathcal{R}\subset \mathbb{R}^{d} (d≥1d\geq 1) of space, electric fields E\mathcal{E} within R\mathcal{R} drive currents. At leading order, uniformly with respect to the volume ∣R∣\left| \mathcal{R}\right| of R\mathcal{R} and the particular choice of the static potential, the dependency on E\mathcal{E} of the current is linear and described by a conductivity distribution. Because of the positivity of the heat production, the real part of its Fourier transform is a positive measure, named here (microscopic) conductivity measure of R\mathcal{R}, in accordance with Ohm's law in Fourier space. This finite measure is the Fourier transform of a time-correlation function of current fluctuations, i.e., the conductivity distribution satisfies Green-Kubo relations. We additionally show that this measure can also be seen as the boundary value of the Laplace-Fourier transform of a so-called quantum current viscosity. The real and imaginary parts of conductivity distributions satisfy Kramers-Kronig relations. At leading order, uniformly with respect to parameters, the heat production is the classical work performed by electric fields on the system in presence of currents. The conductivity measure is uniformly bounded with respect to parameters of the system and it is never the trivial measure 0 dν0\,\mathrm{d}\nu . Therefore, electric fields generally produce heat in such systems. In fact, the conductivity measure defines a quadratic form in the space of Schwartz functions, the Legendre-Fenchel transform of which describes the resistivity of the system. This leads to Joule's law, i.e., the heat produced by currents is proportional to the resistivity and the square of currents

    Correlations in Free Fermionic States

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    We study correlations in a bipartite, Fermionic, free state in terms of perturbations induced by one party on the other. In particular, we show that all so conditioned free states can be modelled by an auxiliary Fermionic system and a suitable completely positive map.Comment: 17 pages, no figure
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