Resent Progress in Quantum Algorithms
... progress goes back to the very roots of quantum computing and indeed of classical computing itself. From their earliest days, computers have been put to use in simulating physics. Among the difficulties that were soon encountered in such simulations was that quantum systems appeared to be harder to ...
... progress goes back to the very roots of quantum computing and indeed of classical computing itself. From their earliest days, computers have been put to use in simulating physics. Among the difficulties that were soon encountered in such simulations was that quantum systems appeared to be harder to ...
5.11 Harmonic Oscillator
... Classically, the oscillator can't exist in a state in "forbidden" regions. For example, a pendulum oscillating with an amplitude A cannot have a displacement greater than A. Could there be a nonzero probability of finding the system in "forbidden" regions. I wonder what that means for our ...
... Classically, the oscillator can't exist in a state in "forbidden" regions. For example, a pendulum oscillating with an amplitude A cannot have a displacement greater than A. Could there be a nonzero probability of finding the system in "forbidden" regions. I wonder what that means for our ...
Quantum impurity problem in ultracold gases: Dimitri M Gangardt Alex Kamenev,
... Sensitive to parameters. Absence of dissipation for integrable systems even at nonzero temperature Can be applied to study excitation dynamics in nearly integrable systems. Lifetime of quasiparticles Experiments.... ...
... Sensitive to parameters. Absence of dissipation for integrable systems even at nonzero temperature Can be applied to study excitation dynamics in nearly integrable systems. Lifetime of quasiparticles Experiments.... ...