Bounds on quantum information storage and retrieval

Abstract: We present certain universal bounds on the capacity of quantum information storage and on the time scale of its retrieval for a generic quantum field theoretic system. The capacity, quantified by the microstate entropy, is bounded from above by the surface area of the object measured in units of a Goldstone decay constant. The Goldstone bosons are universally present due to the spontaneous breaking of Poincare and internal symmetries by the information-storing object. Applied to a black hole, the bound reprodu… Show more

“…Given the quantum world, there are the important issues of the capacity of quantum information storage and its retrieval time in gauge field theories. This is discussed by Dvali with information capacity quantified by the microstate entropy [5]. Universal bounds are derived for quantum gauged systems and for black holes which are shown to operate within the same rules of maximal information storage capacity.…”

Quantum technologies in particle physics

“…Given the quantum world, there are the important issues of the capacity of quantum information storage and its retrieval time in gauge field theories. This is discussed by Dvali with information capacity quantified by the microstate entropy [5]. Universal bounds are derived for quantum gauged systems and for black holes which are shown to operate within the same rules of maximal information storage capacity.…”

Quantum technologies in particle physics

How special are black holes? Correspondence with objects saturating unitarity bounds in generic theories

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