Asymptotics of quantum channels: conserved quantities, an adiabatic limit, and matrix product states

Albert, Victor V.

doi:10.22331/q-2019-06-06-151

Cited by 25 publications

(26 citation statements)

References 93 publications

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“…Specifically, using a generalized notion of quantum sufficient statistic [24][25][26][27], we show that a local operation on part of a system is efficient if and only if it unitarily preserves the minimal sufficient statistic of the part for arXiv:2001.02258v3 [quant-ph] 1 Feb 2020 the whole. Our geometric interpretation of this also draws on recent progress on fixed points of quantum channels [28][29][30][31].…”

Section: Introductionmentioning

confidence: 99%

Thermodynamically-efficient local computation and the inefficiency of quantum memory compression

Loomis

Crutchfield

2020

Phys. Rev. Research

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Modularity dissipation identifies how locally-implemented computation entails costs beyond those required by Landauer's bound on thermodynamic computing. We establish a general theorem for efficient local computation, giving the necessary and sufficient conditions for a local operation to have zero modularity cost. Applied to thermodynamically-generating stochastic processes it confirms a conjecture that classical generators are efficient if and only if they satisfy retrodiction, which places minimal memory requirements on the generator. This extends immediately to quantum computation: Any quantum simulator that employs quantum memory compression cannot be thermodynamically efficient.CB is given by W min = k B T ln 2 (H[ρ AB ] − H[ρ CB ]).

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Section: Introductionmentioning

confidence: 99%

Thermodynamically-efficient local computation and the inefficiency of quantum memory compression

Loomis

Crutchfield

2020

Phys. Rev. Research

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“…The resulting inequality, due to the commutation relations [M, E t ] = [N , E t ] = 0, expresses the 6 In fact, monotone metrics are also closely related to generalized relative entropies [24], as every monotone Riemannian metric arises from a generalized relative entropy [25]. Hence the previous discussion can be generalized to D corresponding to a relative entropy, as in our example (11).…”

Section: Monotones Of the Evolution And Monotone Riemannian Metricsmentioning

confidence: 92%

“…[23] for an accessible introduction to the subject). While the latter is uniquely determined from the monotonicity property under classical stochastic maps (up to a normalization constant), the same does not hold for its quantum counterparts, which show a rich variety 6 .…”

Section: Monotones Of the Evolution And Monotone Riemannian Metricsmentioning

confidence: 98%

“…An accessible discussion regarding the connection between symmetries and conserved quantities for Markovian dynamics can be found in the papers by Baumgartner and Narnhofer [5], and by Albert and Jiang [4]. Symmetries have also been discussed for the closely related case of iterated quantum channels [6]. From the viewpoint of quantum resource theories [7], consequences of symmetries in quantum dynamics have been systematically considered in the theory of reference frames and asymmetry [8,9].…”

Section: Introductionmentioning

confidence: 99%

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Symmetries and monotones in Markovian quantum dynamics

Styliaris

Zanardi

2020

Quantum

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What can one infer about the dynamical evolution of quantum systems just by symmetry considerations? For Markovian dynamics in finite dimensions, we present a simple construction that assigns to each symmetry of the generator a family of scalar functions over quantum states that are monotonic under the time evolution. The aforementioned monotones can be utilized to identify states that are non-reachable from an initial state by the time evolution and include all constraints imposed by conserved quantities, providing a generalization of Noether's theorem for this class of dynamics. As a special case, the generator itself can be considered a symmetry, resulting in non-trivial constraints over the time evolution, even if all conserved quantities trivialize. The construction utilizes tools from quantum information-geometry, mainly the theory of monotone Riemannian metrics. We analyze the prototypical cases of dephasing and Davies generators.

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“…Various fields of applications to quantum physics motivate the study of these channels and, in particular, of absorption operators and fixed points (see [1,13,32,33,37]), but the approach we shall follow here comes from classical and quantum probability. In a first step, a central theme which stimulated this work is the study of the fixed points of a quantum channel: This theme has been widely investigated, with satisfactory results for the case of positive recurrent channels, i.e., channels with an invariant faithful density (see [5,7,9,10,19,27]), but information is lacking and yet useful in the general case [1,2,24]. Once the construction of the mathematical object clearly appeared, we realized that it could be a useful tool to tackle the different aforementioned subjects.…”

Section: Introductionmentioning

confidence: 99%

Absorption in Invariant Domains for Semigroups of Quantum Channels

Carbone

Girotti

2021

Ann. Henri Poincaré

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We introduce a notion of absorption operators in the context of quantum Markov processes. The absorption problem in invariant domains (enclosures) is treated for a quantum Markov evolution on a separable Hilbert space, both in discrete and continuous times: We define a well-behaving set of positive operators which can correspond to classical absorption probabilities, and we study their basic properties, in general, and with respect to accessibility structure of channels, transience and recurrence. In particular, we can prove that no accessibility is allowed between the null and positive recurrent subspaces. In the case, when the positive recurrent subspace is attractive, ergodic theory will allow us to get additional results, in particular about the description of fixed points.

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Asymptotics of quantum channels: conserved quantities, an adiabatic limit, and matrix product states

Cited by 25 publications

References 93 publications

Thermodynamically-efficient local computation and the inefficiency of quantum memory compression

Thermodynamically-efficient local computation and the inefficiency of quantum memory compression

Symmetries and monotones in Markovian quantum dynamics

Absorption in Invariant Domains for Semigroups of Quantum Channels

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