Fokker-Planck equations for a trapped particle in a quantum-thermal Ohmic bath: general theory and applications to Josephson junctions

AAPPS Bulletin Pub Date : 2023-09-19 DOI:10.1007/s43673-023-00087-2

Koichiro Furutani, Luca Salasnich

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Abstract

We consider a particle trapped by a generic external potential and under the influence of a quantum-thermal Ohmic bath. Starting from the Langevin equation, we derive the corresponding Schwinger-Keldysh action. Then, within the path-integral formalism, we obtain both the semiclassical Fokker-Planck equation and the quantum Fokker-Planck equation for this out-of-equilibrium system. In the case of an external harmonic potential and in the underdamped regime, we find that our Fokker-Planck equations contain an effective temperature \(T_{\text {eff}}\), which crucially depends on the interplay between quantum and thermal fluctuations in contrast to the classical Fokker-Planck equation. In the regime of high temperatures, one recovers the classical Fokker-Planck equation. As an application of our result, we also provide the stationary solution of the semiclassical Fokker-Planck equations for a superconducting Josephson circuit and for a Bose Josephson junction, which are experimentally accessible.

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量子热欧姆浴中被困粒子的福克-普朗克方程：一般理论及约瑟夫森结的应用

我们考虑的是一个粒子被一般外部电势困住，并受到量子热欧姆浴的影响。我们从朗热文方程出发，推导出相应的施文格-凯尔迪什作用。然后，在路径积分形式主义中，我们得到了这个失衡系统的半经典福克-普朗克方程和量子福克-普朗克方程。在外部谐波势和欠阻尼体制下，我们发现福克-普朗克方程包含一个有效温度（T_{\text {eff}}/），与经典福克-普朗克方程不同的是，它关键取决于量子波动和热波动之间的相互作用。在高温条件下，我们可以恢复经典的福克-普朗克方程。作为我们结果的应用，我们还为超导约瑟夫森电路和玻色约瑟夫森结提供了半经典福克-普朗克方程的静态解，这在实验中是可以实现的。

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来源期刊

AAPPS Bulletin

CiteScore

8.20

自引率

0.00%

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