Why the Difference Between Quantum and Classical
... issue here is basically epistemic. Is our evidence for the existence of mental state epistemically prior to our evidence that our physical theories are complete, even in the event that they do not make room for any mental properties? Since our evidence for any theory in part depends on our sensory e ...
... issue here is basically epistemic. Is our evidence for the existence of mental state epistemically prior to our evidence that our physical theories are complete, even in the event that they do not make room for any mental properties? Since our evidence for any theory in part depends on our sensory e ...
Quantum dynamics - Psychological Sciences
... + Offers better fits to the empirical data than DFT ...
... + Offers better fits to the empirical data than DFT ...
Lecture 17: Bohr Model of the Atom
... by Bohr, only certain orbits are allowed since they satisfy the standing wave condition. ...
... by Bohr, only certain orbits are allowed since they satisfy the standing wave condition. ...
White paper: The logic of quantum mechanics
... of processes were computer scientists. Here are the structural ingredients from a physics perspective: • We represent types of systems (or ‘kinds’ if you prefer), be it physical systems such as photons and electrons, or classical data types, or combinations thereof (e.g. the pair consisting of a qua ...
... of processes were computer scientists. Here are the structural ingredients from a physics perspective: • We represent types of systems (or ‘kinds’ if you prefer), be it physical systems such as photons and electrons, or classical data types, or combinations thereof (e.g. the pair consisting of a qua ...
Quantum Dot Single Photon Sources Quantum Dots
... construction of a CZ gate with two NS-1 gates ...
... construction of a CZ gate with two NS-1 gates ...
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... The tiny building blocks themselves have no direct physical meaning. If one could examine real spacetime with an ultra-powerful microscope, one would not see small triangles. They are merely approximations. The only physically relevant information comes from the collective behavior of the building b ...
... The tiny building blocks themselves have no direct physical meaning. If one could examine real spacetime with an ultra-powerful microscope, one would not see small triangles. They are merely approximations. The only physically relevant information comes from the collective behavior of the building b ...
Gravity as a result quantum vacuum energy density
... stars. It seems stability of elementary particles requires certain energy density quantum vacuum. Where energy density ...
... stars. It seems stability of elementary particles requires certain energy density quantum vacuum. Where energy density ...
The lattice structure of quantum logics
... of the logical approach. Usually we assume the logic to be an orthomodular, complete ortholattice without any further substantiations. However, a deeper analysis suggest, that this property is neither obvious nor natural. The problem is important, because of the basic role played by the lattice prop ...
... of the logical approach. Usually we assume the logic to be an orthomodular, complete ortholattice without any further substantiations. However, a deeper analysis suggest, that this property is neither obvious nor natural. The problem is important, because of the basic role played by the lattice prop ...
data encryption device using radioactive decay and - UW
... idea. The computation power ultimately will lead to solving problems that are difficult on classical computers more easily. A difficult problem to solve on classical computers is integer factorization. RSA encryption is based on the principle that computers take a very long time to solve integer fa ...
... idea. The computation power ultimately will lead to solving problems that are difficult on classical computers more easily. A difficult problem to solve on classical computers is integer factorization. RSA encryption is based on the principle that computers take a very long time to solve integer fa ...
On the Problem of Hidden Variables in Quantum Mechanics
... This is true for quantum mechanical states; it is required by von Neumann of the hypothetical dispersion free states also. In the two-dimensional example of Sec. II, the expectation value must then be a linear function of a and g. But for a dispersion free state (which has no statistical character) ...
... This is true for quantum mechanical states; it is required by von Neumann of the hypothetical dispersion free states also. In the two-dimensional example of Sec. II, the expectation value must then be a linear function of a and g. But for a dispersion free state (which has no statistical character) ...
A phase-space study of the quantum Loschmidt Echo in the
... We can see easily that in the semiclassical limit, ~ → 0, the quantum echo converges to the classical echo. In more mathematical terms, the quantum echo is a ~ Fourier Integral Operator whose canonical relation is the classical echo. This is a consequence of the semiclassical Egorov theorem as we sh ...
... We can see easily that in the semiclassical limit, ~ → 0, the quantum echo converges to the classical echo. In more mathematical terms, the quantum echo is a ~ Fourier Integral Operator whose canonical relation is the classical echo. This is a consequence of the semiclassical Egorov theorem as we sh ...
