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Paper
... with each advance towards absolute zero, new and rich physics has emerged. Laypeople may wonder why freezing cold is not cold enough; but imagine how many aspects of nature we would miss if we lived on the surface of the Sun. Without inventing refrigerators, we would know only gaseous matter and nev ...
... with each advance towards absolute zero, new and rich physics has emerged. Laypeople may wonder why freezing cold is not cold enough; but imagine how many aspects of nature we would miss if we lived on the surface of the Sun. Without inventing refrigerators, we would know only gaseous matter and nev ...
Two-Dimensional Schrodinger Scattering and Electron Transport in Graphene
... electrons scattering from a two-dimensional electrostatic lattice potential. This potential derives from the de-localised electrons associated with the hexagonal nature of the primary structure of Graphene as replicated throughout the lattice. In this sense, each primary element of Graphene is analo ...
... electrons scattering from a two-dimensional electrostatic lattice potential. This potential derives from the de-localised electrons associated with the hexagonal nature of the primary structure of Graphene as replicated throughout the lattice. In this sense, each primary element of Graphene is analo ...
Quantum Monte Carlo study of a disordered 2D Josephson junction array
... coherent at T ¼ 0. In this case, Cooper pairs can tunnel between neighboring grains and the array as a whole will be in the superconducting phase. Thus, by tuning the ratio of the charging and Josephson energies, one can cause the array to undergo a quantum phase transition between a superconducting ...
... coherent at T ¼ 0. In this case, Cooper pairs can tunnel between neighboring grains and the array as a whole will be in the superconducting phase. Thus, by tuning the ratio of the charging and Josephson energies, one can cause the array to undergo a quantum phase transition between a superconducting ...
One-phonon relaxation of localized electronic states in anharmonic nanoparticles
... the acoustic gap that becomes possible because of an uncertainty in the phonon energy originating from intrinsic phonon relaxation. Intrinsic relaxation of phonons, in turn, can have many origins. One of them, which is always present, is phonon–phonon interaction due to anharmonicity of the crystal. ...
... the acoustic gap that becomes possible because of an uncertainty in the phonon energy originating from intrinsic phonon relaxation. Intrinsic relaxation of phonons, in turn, can have many origins. One of them, which is always present, is phonon–phonon interaction due to anharmonicity of the crystal. ...
Paper
... The control of the coupling phase was experimentally demonstrated. Condensates of 23 Na atoms in the jF 1; mF 1i state were prepared in an optical double-well potential as described in Ref. [14]. The 1=e2 -intensity radius of a focused laser beam for a single well was 7:6 m and the typical t ...
... The control of the coupling phase was experimentally demonstrated. Condensates of 23 Na atoms in the jF 1; mF 1i state were prepared in an optical double-well potential as described in Ref. [14]. The 1=e2 -intensity radius of a focused laser beam for a single well was 7:6 m and the typical t ...
Hubbard model description of silicon spin qubits: charge stability
... from panels (a) to (c) of Figs. 1 and 2 illustrates this process, whose qualitative feature is well understood.46,47 If the central barrier is high enough to well separate the two dots (so that the coupling between them is weak), the two dots behave basically independently and the charge stability d ...
... from panels (a) to (c) of Figs. 1 and 2 illustrates this process, whose qualitative feature is well understood.46,47 If the central barrier is high enough to well separate the two dots (so that the coupling between them is weak), the two dots behave basically independently and the charge stability d ...
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... Many of the above applications make use of atomic ensembles rather than single atoms, in which case the complete quantum description of the ensemble–cavity interaction is nontrivial as it in general involves a very large Hilbert space (Baragiola et al., 2010). (Under assumptions of symmetry, exact s ...
... Many of the above applications make use of atomic ensembles rather than single atoms, in which case the complete quantum description of the ensemble–cavity interaction is nontrivial as it in general involves a very large Hilbert space (Baragiola et al., 2010). (Under assumptions of symmetry, exact s ...
ABSTRACT PHOTON PAIR PRODUCTION FROM A HOT ATOMIC ENSEMBLE IN THE DIAMOND CONFIGURATION
... scheme for the authors of Ref [26]). Early work came from the groups of Kimble [37, 53] and Lukin [60]. These experiments utilized the lambda level structure in alkali atoms to create nearly degenerate biphotons in the near IR. Work at Stanford in the Harris group has made improvements to the lambda ...
... scheme for the authors of Ref [26]). Early work came from the groups of Kimble [37, 53] and Lukin [60]. These experiments utilized the lambda level structure in alkali atoms to create nearly degenerate biphotons in the near IR. Work at Stanford in the Harris group has made improvements to the lambda ...
Quantum Mechanical Operators and Commutation C I. Bra
... The above remarks should not be interpreted to mean that experiments are limited to preparing only eigenstates. Just as one can 'pluck' a violin string or 'pound' a drum head in any manner, experiments can prepare a system in states that are not pure eigenfunctions (i.e., states that do not contain ...
... The above remarks should not be interpreted to mean that experiments are limited to preparing only eigenstates. Just as one can 'pluck' a violin string or 'pound' a drum head in any manner, experiments can prepare a system in states that are not pure eigenfunctions (i.e., states that do not contain ...
Fundamentals of Spectroscopy for Optical Remote Sensing
... molecular structures along with various orbital, spin and nuclear interactions). (2) Applied study of environmental properties (e.g., remote sensing of atmospheric parameters, chemical analysis, etc.). The main contents are identification of chemical composition and measurement of their quantity usi ...
... molecular structures along with various orbital, spin and nuclear interactions). (2) Applied study of environmental properties (e.g., remote sensing of atmospheric parameters, chemical analysis, etc.). The main contents are identification of chemical composition and measurement of their quantity usi ...
Quantum Chemistry Methods
... is obtained from first principles of quantum chemistry using rigorous mathematical approximations, and without using empirical data.In the frame of ab initio methods there are two strategies to solve equation: ...
... is obtained from first principles of quantum chemistry using rigorous mathematical approximations, and without using empirical data.In the frame of ab initio methods there are two strategies to solve equation: ...