Abstract
Microcanonical thermodynamics studies the operations that can be performed on systems with well-defined energy. So far, this approach has been applied to classical and quantum systems. Here we extend it to arbitrary physical theories, proposing two requirements for the development of a general microcanonical framework. We then formulate three resource theories, corresponding to three different sets of basic operations: (i) random reversible operations, resulting from reversible dynamics with fluctuating parameters, (ii) noisy operations, generated by the interaction with ancillas in the microcanonical state, and (iii) unital operations, defined as the operations that preserve the microcanonical state. We focus our attention on a class of physical theories, called sharp theories with purification, where these three sets of operations exhibit remarkable properties. Firstly, each set is contained into the next. Secondly, the convertibility of states by unital operations is completely characterised by a majorisation criterion. Thirdly, the three sets are equivalent in terms of state convertibility if and only if the dynamics allowed by theory satisfy a suitable condition, which we call unrestricted reversibility. Under this condition, we derive a duality between the resource theories of microcanonical thermodynamics and the resource theory of pure bipartite entanglement.
Highlights
In recent years, developments in the field of nanotechnology have raised questions about thermodynamics away from the thermodynamic limit [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17]
In this paper we extend the paradigm of microcanonical thermodynamics from quantum theory to arbitrary physical theories [54,55,56,57,58,59,60,61]
In sharp theories with purification, we show that the three sets of operations satisfy the same inclusion relations as in quantum theory, with random reversible operations included in the set of noisy operations, and noisy operations included in the set of unital operations
Summary
This approach has been applied to classical and quantum systems. We this work must maintain attribution to the extend it to arbitrary physical theories, proposing two requirements for the development of a general author(s) and the title of microcanonical framework. The three sets are equivalent in terms of state convertibility if and only if the dynamics allowed by theory satisfy a suitable condition, which we call unrestricted reversibility. Under this condition, we derive a duality between the resource theories of microcanonical thermodynamics and the resource theory of pure bipartite entanglement
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