Arbitrary Amplification of Quantum Coherence in Asymptotic and Catalytic Transformation

• URL: http://arxiv.org/abs/2308.12338v2
• Date: Sun, 5 May 2024 04:44:59 GMT
• Title: Arbitrary Amplification of Quantum Coherence in Asymptotic and Catalytic Transformation
• Authors: Naoto Shiraishi, Ryuji Takagi,
• Abstract summary: We show how well one can prepare good coherent states from low coherent states and whether a given coherent state is convertible to another one. For a variant of coherence where one aims to prepare desired states in local subsystems, the rate of transformation becomes unbounded regardless of how weak the initial coherence is. Applying this to the standard setting, we find that a catalyst can increase the coherence rate significantly -- from zero to infinite rate.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Quantum coherence is one of the fundamental aspects distinguishing classical and quantum theories. Coherence between different energy eigenstates is particularly important, as it serves as a valuable resource under the law of energy conservation. A fundamental question in this setting is how well one can prepare good coherent states from low coherent states and whether a given coherent state is convertible to another one. Here, we show that any low coherent state is convertible to any high coherent state arbitrarily well in two operational settings: asymptotic and catalytic transformations. For a variant of asymptotic coherence manipulation where one aims to prepare desired states in local subsystems, the rate of transformation becomes unbounded regardless of how weak the initial coherence is. In a non-asymptotic transformation with a catalyst, a helper state that locally remains in the original form after the transformation, we show that an arbitrary state can be obtained from any low coherent state. Applying this to the standard asymptotic setting, we find that a catalyst can increase the coherence distillation rate significantly -- from zero to infinite rate. We also prove that such anomalous transformation requires small but non-zero coherence in relevant modes, establishing the condition under which a sharp transition of the operational capability occurs. Our results provide a general characterization of the coherence transformability in these operational settings and showcase their peculiar properties compared to other common resource theories such as entanglement and quantum thermodynamics.

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