Quantum theory of mesoscopic electric circuits in entangled state representation
From MaRDI portal
Publication:1850403
DOI10.1016/S0375-9601(02)01453-6zbMath1001.81501OpenAlexW1989307127MaRDI QIDQ1850403
Yue Fan, Hong-Yi Fan, Tong-Qiang Song
Publication date: 3 December 2002
Published in: Physics Letters. A (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/s0375-9601(02)01453-6
Related Items (10)
Number-phase quantization scheme and the quantum effects of a mesoscopic electric circuit at finite temperature ⋮ Entangled state in quantization of magnetic flux qubits with mutual inductance coupling ⋮ QUANTUM STATE OF JOSEPHSON JUNCTION AS COOPER PAIR NUMBER-PHASE ENTANGLED STATE IN THE BOSONIC OPERATOR JOSEPHSON MODEL ⋮ DRIVEN MESOSCOPIC ELECTRIC CIRCUITS ⋮ FLUCTUATIONS AT FINITE TEMPERATURE AND THERMODYNAMICS OF MESOSCOPIC RLC CIRCUIT CALCULATED BY USING GENERALIZED THERMAL VACUUM STATE ⋮ Equivalent analogy of mesoscopic RLC circuit and its thermal effect ⋮ Quantum fluctuations of the current and voltage in thermal vacuum state for mesoscopic quartz piezoelectric crystal ⋮ OPERATOR JOSEPHSON EQUATION FOR A JOSEPHSON JUNCTION CONNECTED INTO A MESOSCOPIC LC CIRCUIT ⋮ MODIFIED JOSEPHSON EQUATION AND MEASUREMENT DYNAMICS FOR THE JOSEPHSON TRANSMISSION LINE DETECTOR ⋮ QUANTIZATION FOR THE MESOSCOPIC RLC CIRCUIT AND ITS THERMAL EFFECT BY VIRTUE OF GHFT
Cites Work
This page was built for publication: Quantum theory of mesoscopic electric circuits in entangled state representation
