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On Landauer's principle and bound for infinite systems

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arxiv 1710.00910 v2 pith:WDO4OLTR submitted 2017-10-02 quant-ph cs.IThep-thmath-phmath.ITmath.MPmath.OA

On Landauer's principle and bound for infinite systems

classification quant-ph cs.IThep-thmath-phmath.ITmath.MPmath.OA
keywords boundlandauerchannelenergyfreeincrementalindexquantum
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Landauer's principle provides a link between Shannon's information entropy and Clausius' thermodynamical entropy. We set up here a basic formula for the incremental free energy of a quantum channel, possibly relative to infinite systems, naturally arising by an Operator Algebraic point of view. By the Tomita-Takesaki modular theory, we can indeed describe a canonical evolution associated with a quantum channel state transfer. Such evolution is implemented both by a modular Hamiltonian and a physical Hamiltonian, the latter being determined by its functoriality properties. This allows us to make an intrinsic analysis, extending our QFT index formula, but without any a priori given dynamics; the associated incremental free energy is related to the logarithm of the Jones index and is thus quantised. This leads to a general lower bound for the incremental free energy of an irreversible quantum channel which is half of the Landauer bound, and to further bounds corresponding to the discrete series of the Jones index. In the finite dimensional context, or in the case of DHR charges in QFT, where the dimension is a positive integer, our lower bound agrees with Landauer's bound.

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