We present a numerically feasible semiclassical (SC) method to evaluate quantum fidelity decay (Loschmidt echo) in a classically chaotic system. It was thought that such evaluation would be intractable, but instead we show that a uniform SC expression not only is tractable but it also gives remarkably accurate numerical results for the standard map in both the Fermi-golden-rule and Lyapunov regimes. Because it allows Monte Carlo evaluation, the uniform expression is accurate at times when there are 1070 semiclassical contributions. Remarkably, it also explicitly contains the “building blocks” of analytical theories of recent literature, and thus permits a direct test of the approximations made by other authors in these regimes, rather than ...
Journal of Mathematical Physics ThéorieIn this paper we perform an exact study of ``Quantum Fidelity...
We analyze the efficiency of available algorithms for the simulation of classical fidelity and show ...
To be published in Journal of Mathematical Analysis and Applications - ThéorieLet us consider the qu...
By considering correlations between classical orbits we derive semiclassical expressions for the dec...
We study the stability of quantum motion of classically regular systems in the presence of small per...
Fidelity serves as a benchmark for the relieability in quantum information processes, and has recent...
While rigorous quantum dynamical simulations of many-body systems are extremely difficult (or imposs...
We use uniform semiclassical approximation for fidelity in order to derive its decay in the regime o...
AbstractLet us consider the quantum/versus classical dynamics for Hamiltonians of the form(0.1)Hgϵ:=...
We address the sensitivity of quantum mechanical time evolution by considering the time decay of the...
TheorieThe notion of Loschmidt echo (also called "quantum fidelity") has been introduced in order to...
We address the sensitivity of quantum mechanical time evolution by considering the time decay of the...
Recent work has connected the type and rate of fidelity decay in some quantum models to the presence...
General semiclassical expression for quantum fidelity (Loschmidt echo) of arbitrary pure and mixed s...
The Loschmidt echo?also known as fidelity?is a very useful tool to study irreversibility in quantum ...
Journal of Mathematical Physics ThéorieIn this paper we perform an exact study of ``Quantum Fidelity...
We analyze the efficiency of available algorithms for the simulation of classical fidelity and show ...
To be published in Journal of Mathematical Analysis and Applications - ThéorieLet us consider the qu...
By considering correlations between classical orbits we derive semiclassical expressions for the dec...
We study the stability of quantum motion of classically regular systems in the presence of small per...
Fidelity serves as a benchmark for the relieability in quantum information processes, and has recent...
While rigorous quantum dynamical simulations of many-body systems are extremely difficult (or imposs...
We use uniform semiclassical approximation for fidelity in order to derive its decay in the regime o...
AbstractLet us consider the quantum/versus classical dynamics for Hamiltonians of the form(0.1)Hgϵ:=...
We address the sensitivity of quantum mechanical time evolution by considering the time decay of the...
TheorieThe notion of Loschmidt echo (also called "quantum fidelity") has been introduced in order to...
We address the sensitivity of quantum mechanical time evolution by considering the time decay of the...
Recent work has connected the type and rate of fidelity decay in some quantum models to the presence...
General semiclassical expression for quantum fidelity (Loschmidt echo) of arbitrary pure and mixed s...
The Loschmidt echo?also known as fidelity?is a very useful tool to study irreversibility in quantum ...
Journal of Mathematical Physics ThéorieIn this paper we perform an exact study of ``Quantum Fidelity...
We analyze the efficiency of available algorithms for the simulation of classical fidelity and show ...
To be published in Journal of Mathematical Analysis and Applications - ThéorieLet us consider the qu...