Compact industrial CO₂laser source

“…As first pointed out in 17 , this classical Smoluchowski equation (SE) can be generalized to the low temperature domain where quantum fluctuations become substantial 18 . The quantum Smoluchowski equation (QSE) has been studied since then in a variety of applications 20 including particularly an extension of the classical Ivanchenko-Zil'berman theory for Josephson junctions in low impedance environments 10,11 . There, quantum fluctuations are related to charging effects and reveal signatures of Coulomb blockade physics.…”

“…It turned out that for atomic point contacts this phase dynamics occurs in an overdamped regime. The corresponding classical frame is provided by the Smoluchowski equation which has already been the starting point for cal-culations of current-voltage characteristics of Josephson junctions in low impedance environments 10,11 . There, only the Josephson energy remains as relevant parameter while charging effects related to inertia drop out.…”

Quantum phase diffusion in ac-driven superconducting atomic point contacts

“…As first pointed out in 17 , this classical Smoluchowski equation (SE) can be generalized to the low temperature domain where quantum fluctuations become substantial 18 . The quantum Smoluchowski equation (QSE) has been studied since then in a variety of applications 20 including particularly an extension of the classical Ivanchenko-Zil'berman theory for Josephson junctions in low impedance environments 10,11 . There, quantum fluctuations are related to charging effects and reveal signatures of Coulomb blockade physics.…”

“…It turned out that for atomic point contacts this phase dynamics occurs in an overdamped regime. The corresponding classical frame is provided by the Smoluchowski equation which has already been the starting point for cal-culations of current-voltage characteristics of Josephson junctions in low impedance environments 10,11 . There, only the Josephson energy remains as relevant parameter while charging effects related to inertia drop out.…”

Quantum phase diffusion in ac-driven superconducting atomic point contacts

Self-filtering resonator of a cw CO₂laser