LAPLACE TRANSFORM AND UNIVERSAL sl2 INVARIANTS
... remarkable properties and is very suitable for the study of quantum invariants. The result of Habiro and Habiro–Le mentioned above is Theorem 1. (Habiro, Habiro–Le) For every simple Lie algebra g and an integral g d such that if ξ is a homology 3–sphere M, there exists an invariant IM (q) ∈ Z[q], g ...
... remarkable properties and is very suitable for the study of quantum invariants. The result of Habiro and Habiro–Le mentioned above is Theorem 1. (Habiro, Habiro–Le) For every simple Lie algebra g and an integral g d such that if ξ is a homology 3–sphere M, there exists an invariant IM (q) ∈ Z[q], g ...
Quantum Interaction Approach in Cognition, Artificial Intelligence
... been named Quantum Cognition [6]. It is interesting, in our opinion, to dwell upon the main results obtained by the scholars involved in this Quantum Interaction Approach. We stress, however, that the following presentation does not pretend to be either historically complete or exhaustive of the var ...
... been named Quantum Cognition [6]. It is interesting, in our opinion, to dwell upon the main results obtained by the scholars involved in this Quantum Interaction Approach. We stress, however, that the following presentation does not pretend to be either historically complete or exhaustive of the var ...
Quantum Process on 1 quabit system Au Tung Kin 2009264740 1
... For instance, electrons are elementary particles with physical quantity spin. The spin of electrons along a specific direction can only be spin up or spin down if measurement is done. Without measurement, the spin of electrons is uncertain, that is, we may have nonzero probability to get spin up or ...
... For instance, electrons are elementary particles with physical quantity spin. The spin of electrons along a specific direction can only be spin up or spin down if measurement is done. Without measurement, the spin of electrons is uncertain, that is, we may have nonzero probability to get spin up or ...
Atom InterferometryPrecision D. E. Pritchard
... In the photon scattering experiment, decoherence results from quantum entanglement between an atom (which is referred to as the “system”) and the final momentum of the scattered photons (which collectively constitute the “environment”). In a second experiment, we replaced the random process of photo ...
... In the photon scattering experiment, decoherence results from quantum entanglement between an atom (which is referred to as the “system”) and the final momentum of the scattered photons (which collectively constitute the “environment”). In a second experiment, we replaced the random process of photo ...
UvA-DARE (Digital Academic Repository) The problem of
... given time, resonate with the views accepted in peer reviewed journals in that field. By contrast, emic historiographies are meaningful in light of discourse-internal assumptions, but are not necessarily ...
... given time, resonate with the views accepted in peer reviewed journals in that field. By contrast, emic historiographies are meaningful in light of discourse-internal assumptions, but are not necessarily ...
- Philsci
... descriptions linked to explanation. Kripke (1980) proposes “determining the reference of a name by description, and not by ostension”: Neptune was hypothesized as the planet which caused such and such discrepancies in the orbits of certain other planets. If Le Verrier indeed gave the name “Neptune” ...
... descriptions linked to explanation. Kripke (1980) proposes “determining the reference of a name by description, and not by ostension”: Neptune was hypothesized as the planet which caused such and such discrepancies in the orbits of certain other planets. If Le Verrier indeed gave the name “Neptune” ...
Superconducting Circuits and Quantum Computation
... criteria for practical quantum computing: long coherence times and the ability to scale to thousands of qubits. Persistent-current (PC) qubits are promising candidates for realizing such a large-scale quantum computer. The PC qubit is a superconducting circuit with Josephson Junction elements, which ...
... criteria for practical quantum computing: long coherence times and the ability to scale to thousands of qubits. Persistent-current (PC) qubits are promising candidates for realizing such a large-scale quantum computer. The PC qubit is a superconducting circuit with Josephson Junction elements, which ...
Read PDF - Physics
... axes with equal (small) amplitudes, each at a different frequency. As expected, the power spectrum shows peaks at all frequencies, and the peaks at frequencies fE and fF are higher than the rest. The surprising result is obtained when the interferometer is modified to be a which-path experiment, usi ...
... axes with equal (small) amplitudes, each at a different frequency. As expected, the power spectrum shows peaks at all frequencies, and the peaks at frequencies fE and fF are higher than the rest. The surprising result is obtained when the interferometer is modified to be a which-path experiment, usi ...
A hands-on introduction to single photons and quantum mechanics for undergraduates
... with our students, introducing concepts as needed to explain observed results. Most of the experiments described have been performed by others in both pedagogical and research settings. The goal of this paper is to offer a slightly different pedagogical approach than previously reported and to clari ...
... with our students, introducing concepts as needed to explain observed results. Most of the experiments described have been performed by others in both pedagogical and research settings. The goal of this paper is to offer a slightly different pedagogical approach than previously reported and to clari ...
Bell's theorem
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Bell's theorem is a ‘no-go theorem’ that draws an important distinction between quantum mechanics (QM) and the world as described by classical mechanics. This theorem is named after John Stewart Bell.In its simplest form, Bell's theorem states:Cornell solid-state physicist David Mermin has described the appraisals of the importance of Bell's theorem in the physics community as ranging from ""indifference"" to ""wild extravagance"". Lawrence Berkeley particle physicist Henry Stapp declared: ""Bell's theorem is the most profound discovery of science.""Bell's theorem rules out local hidden variables as a viable explanation of quantum mechanics (though it still leaves the door open for non-local hidden variables). Bell concluded:Bell summarized one of the least popular ways to address the theorem, superdeterminism, in a 1985 BBC Radio interview: