Correlated qubit coherences stimulated by thermal energy

IF 2.8 2区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY New Journal of Physics Pub Date : 2024-08-20 DOI:10.1088/1367-2630/ad6bb6
N Etehadi Abari, A A Rakhubovsky, R Filip
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Abstract

Quantum coherence, the ability of a system to be in a quantum superposition of pure states, is a distinct feature of quantum mechanics that has no direct analog in classical mechanics. Quantum states that possess coherence efficiently outperform their classical counterparts in fundamental science and practical applications, including quantum metrology, computation, and simulation. Generation of coherence without the need to employ strong classical drives remains a challenging and not yet experimentally explored task. Beyond individual thermally-induced coherences already proposed for different experiments, correlated quantum coherences of multiple qubits represent a new target. We prove that correlated qubit coherence emerges thermally stimulated from incoherent states in hybrid superconducting and solid-state systems comprising non-interacting qubits coupled only via Dicke-type interaction to a shared thermal mechanical oscillator, exhibits coherences beyond the Tavis–Cummings coupling and, moreover, can be advantageous in quantum sensing.
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热能激发的相关量子比特相干性
量子相干性是指系统处于纯态量子叠加的能力,它是量子力学的一个显著特征,在经典力学中没有直接的类似物。在基础科学和实际应用(包括量子计量学、计算和模拟)中,具有相干性的量子态能有效地超越经典量子态。无需使用强大的经典驱动力就能产生相干性,这仍然是一项极具挑战性的任务,目前尚未进行实验探索。除了已经在不同实验中提出的单个热诱导相干性之外,多个量子比特的相关量子相干性是一个新的目标。我们证明,在混合超导和固态系统中,相关量子比特相干性是从非相干态受到热刺激而产生的,该系统包括仅通过迪克型相互作用耦合到共享热机械振荡器的非相互作用量子比特,表现出超越塔维斯-康明斯耦合的相干性,而且在量子传感方面具有优势。
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来源期刊
New Journal of Physics
New Journal of Physics 物理-物理:综合
CiteScore
6.20
自引率
3.00%
发文量
504
审稿时长
3.1 months
期刊介绍: New Journal of Physics publishes across the whole of physics, encompassing pure, applied, theoretical and experimental research, as well as interdisciplinary topics where physics forms the central theme. All content is permanently free to read and the journal is funded by an article publication charge.
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