What is quantum unique ergodicity?
... limit ν invariant under T . Such a measure ν would be supported away from an nonempty open set, namely the complement of V . It would therefore be different from µ (which is by assumption positive on each nonempty open set), but this contradicts unique ergodicity. The classical limit of quantum mech ...
... limit ν invariant under T . Such a measure ν would be supported away from an nonempty open set, namely the complement of V . It would therefore be different from µ (which is by assumption positive on each nonempty open set), but this contradicts unique ergodicity. The classical limit of quantum mech ...
Quantum Computing in the de Broglie-Bohm Pilot
... where V (~x, t) is a potential, i labels the particles and ∇i is the three-dimensional spatial derivative in the ith particle’s coordinates. Although we refer to this equation as the “Schrödinger equation”, there is a fundamental difference between this equation and the Schrödinger equation of SQM ...
... where V (~x, t) is a potential, i labels the particles and ∇i is the three-dimensional spatial derivative in the ith particle’s coordinates. Although we refer to this equation as the “Schrödinger equation”, there is a fundamental difference between this equation and the Schrödinger equation of SQM ...
Chapter 6 Particle Spin and the Stern
... This experiment, first performed in 1922, has long been considered as the quintessential experiment that illustrates the fact that the electron possesses intrinsic angular momentum, i.e. spin. It is actually the case that the original experiment had nothing to do with the discovery that the electron ...
... This experiment, first performed in 1922, has long been considered as the quintessential experiment that illustrates the fact that the electron possesses intrinsic angular momentum, i.e. spin. It is actually the case that the original experiment had nothing to do with the discovery that the electron ...
Quasiadiabatic description of nonlinear particle dynamics in typical
... 0.1 mV/m. These values of E correspond to a total potential drop of order of 25 kV. The latter quantity gives the upper boundary for the energy that a particle can gain in the magnetosphere due to the acceleration in a dawn-dusk electric field. For the MFR problem the specified configuration of the ...
... 0.1 mV/m. These values of E correspond to a total potential drop of order of 25 kV. The latter quantity gives the upper boundary for the energy that a particle can gain in the magnetosphere due to the acceleration in a dawn-dusk electric field. For the MFR problem the specified configuration of the ...
Bose-Einstein condensates with balanced gain and loss
... a condensate is reduced by both the coupling to the environment and the interaction of the particles [14]. Furthermore in systems with balanced gain and loss we are especially interested in an exchange of particles with the ...
... a condensate is reduced by both the coupling to the environment and the interaction of the particles [14]. Furthermore in systems with balanced gain and loss we are especially interested in an exchange of particles with the ...
