A Model on Genome Evolution
... Classical phase means the smooth evolution obeying the classical deterministic law, while the quantum phase means the sudden evolution obeying the quantum stochastic law. The present model of genome evolution predicts the alternating occurrence of both phases. Many different estimates for the rate o ...
... Classical phase means the smooth evolution obeying the classical deterministic law, while the quantum phase means the sudden evolution obeying the quantum stochastic law. The present model of genome evolution predicts the alternating occurrence of both phases. Many different estimates for the rate o ...
Interferometric Bell
... quantum communication and in a number of tests on the foundations of quantum mechanics. ...
... quantum communication and in a number of tests on the foundations of quantum mechanics. ...
Quantum Canonical Transformations: Physical Equivalence of
... space. For notational convenience, the collection of extended phase space variables are denoted (q, p), as if they were one-dimensional. The extension to higher dimensions is straightforward. Since quantum canonical transformations will be defined outside of a Hilbert space structure, two unfamiliar ...
... space. For notational convenience, the collection of extended phase space variables are denoted (q, p), as if they were one-dimensional. The extension to higher dimensions is straightforward. Since quantum canonical transformations will be defined outside of a Hilbert space structure, two unfamiliar ...
Environment-Assisted Quantum Walks in Photosynthetic Energy
... treats the diagonal elements of exciton-bath coupling in a nonperturbative fashion. This approach was later used to model energy transfer dynamics in light-harvesting complexes of higher plants [4]. Yang and Fleming provide a comprehensive comparison of Förster, standard Redfield, and modified Redf ...
... treats the diagonal elements of exciton-bath coupling in a nonperturbative fashion. This approach was later used to model energy transfer dynamics in light-harvesting complexes of higher plants [4]. Yang and Fleming provide a comprehensive comparison of Förster, standard Redfield, and modified Redf ...
fizika kvantum
... Given that a particle is located at x1 at a time t1, what is the probability that it will be at x2 at time t2? The experimental results of partial reflection can be predicted by assuming that the photon explores all paths between emitter and detector, paths that include single and multiple refle ...
... Given that a particle is located at x1 at a time t1, what is the probability that it will be at x2 at time t2? The experimental results of partial reflection can be predicted by assuming that the photon explores all paths between emitter and detector, paths that include single and multiple refle ...
Quantum Optics Experiments with Single Photons for Undergraduate Laboratories
... Notice that the visibility for this case can be 1. This type of quantum interference has received much attention for improving over the classical limit of resolution [12]. This interference is similar to the one that gives rise to the Hong-Ou-Mandel interference [13], which produces a characteristic ...
... Notice that the visibility for this case can be 1. This type of quantum interference has received much attention for improving over the classical limit of resolution [12]. This interference is similar to the one that gives rise to the Hong-Ou-Mandel interference [13], which produces a characteristic ...
Entanglement of Atoms via Cold Controlled Collisions
... (7) corresponds to a fundamental two-qubit gate [4]. In order to illustrate to what extent the mechanism presented above is able to perform this ideal gate, we have carried out a numerical study in three dimensions. We have integrated the time-dependent Schrödinger equation with the Hamiltonian (1). ...
... (7) corresponds to a fundamental two-qubit gate [4]. In order to illustrate to what extent the mechanism presented above is able to perform this ideal gate, we have carried out a numerical study in three dimensions. We have integrated the time-dependent Schrödinger equation with the Hamiltonian (1). ...
A REPORT ON QUANTUM COMPUTING
... In the classical model of a computer, the most fundamental building block, the bit, can only exist in one of two distinct states, a 0 or a 1. In a quantum computer the rules are changed. Not only can a 'quantum bit', usually referred to as a 'qubit', exist in the classical 0 and 1 states, it can als ...
... In the classical model of a computer, the most fundamental building block, the bit, can only exist in one of two distinct states, a 0 or a 1. In a quantum computer the rules are changed. Not only can a 'quantum bit', usually referred to as a 'qubit', exist in the classical 0 and 1 states, it can als ...
