Four strategies for dealing with the counting anomaly
... by stipulating that in everyday language the locution “I believe q” entails nothing about q as a whole, since if that were the case, there would be no paradox to address in the first place. Yet this is precisely Frigg’s strategy with regard to the counting anomaly in fuzzy quantum mechanics. 5. Livi ...
... by stipulating that in everyday language the locution “I believe q” entails nothing about q as a whole, since if that were the case, there would be no paradox to address in the first place. Yet this is precisely Frigg’s strategy with regard to the counting anomaly in fuzzy quantum mechanics. 5. Livi ...
atom interferometer - Center for Ultracold Atoms
... recombine, forming interference fringes. We monitor the phase and contrast of these fringes, which are extremely sensitive to any forces on the atoms. This year we completed three experiments on decoherence, we are midway through a measurement of the matter wave index of refraction, and we are devel ...
... recombine, forming interference fringes. We monitor the phase and contrast of these fringes, which are extremely sensitive to any forces on the atoms. This year we completed three experiments on decoherence, we are midway through a measurement of the matter wave index of refraction, and we are devel ...
Ion Photon Entanglement with Barium
... decomposition of the Schrödinger equation into radial and angular parts. The radial part yields a set of wavefunctions labelled, in part, by the principal quantum number, n. In Ba+ , the difference in energy of the ground state, with n = 6, and the next principal quantum number, n = 7, is 236 nm or ...
... decomposition of the Schrödinger equation into radial and angular parts. The radial part yields a set of wavefunctions labelled, in part, by the principal quantum number, n. In Ba+ , the difference in energy of the ground state, with n = 6, and the next principal quantum number, n = 7, is 236 nm or ...
1 - Universität Stuttgart
... und Rekombination des NV, wie wir in dieser Arbeit herausgefunden haben. Dadurch befindet sich das NV nach dem optischen Initialisieren und Auslesen in einem gemischten Zustand von NV− und NV0 , wobei maximal 75 % der Population in NV− ist. Dabei kann nur der negative Ladungszustand NV− sinnvoll ge ...
... und Rekombination des NV, wie wir in dieser Arbeit herausgefunden haben. Dadurch befindet sich das NV nach dem optischen Initialisieren und Auslesen in einem gemischten Zustand von NV− und NV0 , wobei maximal 75 % der Population in NV− ist. Dabei kann nur der negative Ladungszustand NV− sinnvoll ge ...
Quantized field description of rotor frequency
... Leiden Institute of Chemistry, Leiden University 2300 RA Leiden, The Netherlands and Department of Chemical Physics, Weizmann Institute of Science, 76100 Rehovot, Israel ...
... Leiden Institute of Chemistry, Leiden University 2300 RA Leiden, The Netherlands and Department of Chemical Physics, Weizmann Institute of Science, 76100 Rehovot, Israel ...
Development of semi-classical and quantum tools for the
... The International Technology Roadmap for Semiconductors predicts that, in ten years, electron devices will have less than 10 nanometers of channel length and they will work at THz frequencies. The scientific community has done an important effort to provide reliable simulations tools for studying th ...
... The International Technology Roadmap for Semiconductors predicts that, in ten years, electron devices will have less than 10 nanometers of channel length and they will work at THz frequencies. The scientific community has done an important effort to provide reliable simulations tools for studying th ...
Nonlinear Quantum Optics in a Waveguide: Distinct Single Photons Strongly
... state jbi oscillates faster than the single photon-atom coupling rate. Therefore the transmission curve shows only small oscillations around unity. We also note that although the cycle-average scattered intensity is equal to the incident one, the transmitted instantaneous intensity can be higher tha ...
... state jbi oscillates faster than the single photon-atom coupling rate. Therefore the transmission curve shows only small oscillations around unity. We also note that although the cycle-average scattered intensity is equal to the incident one, the transmitted instantaneous intensity can be higher tha ...
Path Integral studies of quantum systems at finite temperatures Sergei Dmitrievich Ivanov
... without computers. In particular, besides solving equations numerically, computers allow to model systems of interest directly, creating a bridge between the theory and experiment. For instance, consider a molecular system, modeled on a computer. Besides the averaged properties, that can be compared ...
... without computers. In particular, besides solving equations numerically, computers allow to model systems of interest directly, creating a bridge between the theory and experiment. For instance, consider a molecular system, modeled on a computer. Besides the averaged properties, that can be compared ...
Correlations in multipartite systems: From entanglement to localization Julia Stasi ´nska
... useful, eventually became one of the marvels of modern science. The theory of entanglement, although far from complete, is now well developed and offers many tools that allow us to test the presence of such correlations and quantify its content in a given state (see [Horodecki 09, Gühne 09] for curr ...
... useful, eventually became one of the marvels of modern science. The theory of entanglement, although far from complete, is now well developed and offers many tools that allow us to test the presence of such correlations and quantify its content in a given state (see [Horodecki 09, Gühne 09] for curr ...
Nuclear Physics
... usage the atom is composed of various subatomic particles. The constituent particles of an atom are the electron, the proton and the neutron. However, the hydrogen-1 atom has no neutrons and a positive hydrogen ion has no electrons. The electron is by far the least massive of these particles at 9.11 ...
... usage the atom is composed of various subatomic particles. The constituent particles of an atom are the electron, the proton and the neutron. However, the hydrogen-1 atom has no neutrons and a positive hydrogen ion has no electrons. The electron is by far the least massive of these particles at 9.11 ...
Sum rule of the correlation function
... The correlation functions of two identical or nonidentical particles with “small” relative momenta have been extensively studied in nuclear collisions for bombarding energies from tens of MeV [1] to hundreds of GeV [2]. These functions provide information about space-time characteristics of particle ...
... The correlation functions of two identical or nonidentical particles with “small” relative momenta have been extensively studied in nuclear collisions for bombarding energies from tens of MeV [1] to hundreds of GeV [2]. These functions provide information about space-time characteristics of particle ...
K - Research
... introduced in a rather ad hoc manner; the correct doublet formulae, for instance, were obtained by taking advantage of the newly discovered THOMAS factor. 23 The effects were not explained, i.e. the doublet phenomena were not deduced from quantum mechanics. It is historically interesting that HEISEN ...
... introduced in a rather ad hoc manner; the correct doublet formulae, for instance, were obtained by taking advantage of the newly discovered THOMAS factor. 23 The effects were not explained, i.e. the doublet phenomena were not deduced from quantum mechanics. It is historically interesting that HEISEN ...
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: