Quantum Databases
... were all willing to delay finalizing their daily work schedules until the evening of the previous day; high-priority events could now be added at short notice with much less disruption. The uncertainty of not knowing your schedule until the day before may be worrisome to certain employees, but in hi ...
... were all willing to delay finalizing their daily work schedules until the evening of the previous day; high-priority events could now be added at short notice with much less disruption. The uncertainty of not knowing your schedule until the day before may be worrisome to certain employees, but in hi ...
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... speakers. Each of these distinguished careers had intersected with Pranks, some speakers having encountered him as a brilliant graduate student, some as the renowned statesman of science that he remains today. The Symposium quotSymmetries and Reflectionsquot was held at Stony Brook on May , . The li ...
... speakers. Each of these distinguished careers had intersected with Pranks, some speakers having encountered him as a brilliant graduate student, some as the renowned statesman of science that he remains today. The Symposium quotSymmetries and Reflectionsquot was held at Stony Brook on May , . The li ...
PowerPoint 演示文稿 - at www.arxiv.org.
... to this issue in the following part). The origin of crossover from metallic- to insulating-behavior, (i.e. upturn of resistivity) is still in debate, which may be subject to two-dimensional (2D) weak localization [35, 36], Kondo-like scattering [37], additional scattering by magnetic droplets trappe ...
... to this issue in the following part). The origin of crossover from metallic- to insulating-behavior, (i.e. upturn of resistivity) is still in debate, which may be subject to two-dimensional (2D) weak localization [35, 36], Kondo-like scattering [37], additional scattering by magnetic droplets trappe ...
Introduction to Modern Canonical Quantum General Relativity
... “connection dynamics” formulation of Einstein’s theory, rather than the original “geometrodynamics” formulation due to Arnowitt, Deser and Misner. As this is an article submitted to the on-line journal “Living Reviews, the report will be updated on an at least bi-annual basis. The field of modern ca ...
... “connection dynamics” formulation of Einstein’s theory, rather than the original “geometrodynamics” formulation due to Arnowitt, Deser and Misner. As this is an article submitted to the on-line journal “Living Reviews, the report will be updated on an at least bi-annual basis. The field of modern ca ...
HOMOGENEOUS LINEWIDTH AND SPECTRAL
... the bulk material....................................................................................................24 2-8. The path of a real electron as opposed to that of an effective electron in two dimensions in a triangular lattice.............................................................. ...
... the bulk material....................................................................................................24 2-8. The path of a real electron as opposed to that of an effective electron in two dimensions in a triangular lattice.............................................................. ...
DampingRings-Lecture4
... Electron cloud could limit the operational performance of the damping rings. Without implementing some measures to suppress the build-up of electron cloud, we expect that the cloud density will approach the neutralisation density, and that beam instabilities will occur. There are a number of techniq ...
... Electron cloud could limit the operational performance of the damping rings. Without implementing some measures to suppress the build-up of electron cloud, we expect that the cloud density will approach the neutralisation density, and that beam instabilities will occur. There are a number of techniq ...
Towards a microscopic Description of classical Solutions in Field
... observables. These effects always arise when we consider small quantum fluctuations on a classical background and a non-vanishing Planck constant ~, while the back-reaction is neglected. We will refer to this limit as semi-classical limit. On the contrary, in this work we are interested in a resolut ...
... observables. These effects always arise when we consider small quantum fluctuations on a classical background and a non-vanishing Planck constant ~, while the back-reaction is neglected. We will refer to this limit as semi-classical limit. On the contrary, in this work we are interested in a resolut ...
EGAS41
... Interatomic Coulombic decay of the Ne2+ (2s1 2p5 )Ar states populated via the K-LL Auger decay of Ne Ph.V. Demekhin, Y.-C. Chiang, S.D. Stoychev, A.I. Kuleff, F. Tarantelli, P. Kolorenč, L.S. Cederbaum CP 17, p77 New view on the description of the hyperfine structure of free atoms and ions. Case of ...
... Interatomic Coulombic decay of the Ne2+ (2s1 2p5 )Ar states populated via the K-LL Auger decay of Ne Ph.V. Demekhin, Y.-C. Chiang, S.D. Stoychev, A.I. Kuleff, F. Tarantelli, P. Kolorenč, L.S. Cederbaum CP 17, p77 New view on the description of the hyperfine structure of free atoms and ions. Case of ...
Spacetime foam and modified dispersion relations
... Study how a Lorentz-invariant model of spacetime foam modify the propagation of particles ...
... Study how a Lorentz-invariant model of spacetime foam modify the propagation of particles ...
Chapter 4: Variable Range Hopping Conduction
... system with randomly distributed localized states is precisely its randomness, which cannot be dealt with analytically without questionable methods of averaging. Whereas the analytical averaging is hindered by the large spread in the individual site-to-site hopping probabilities, percolation theory ...
... system with randomly distributed localized states is precisely its randomness, which cannot be dealt with analytically without questionable methods of averaging. Whereas the analytical averaging is hindered by the large spread in the individual site-to-site hopping probabilities, percolation theory ...
Quantum and Semiclassical Scattering Matrix Theory for
... To illustrate the difficulty with nonintegrable systems I wish to imagine a dialogue between a diligent graduate student and her advisor. The graduate student has been hard at work in the lab taking photoabsorption spectra of an atom having a nonintegrable Hamiltonian. After months of building elect ...
... To illustrate the difficulty with nonintegrable systems I wish to imagine a dialogue between a diligent graduate student and her advisor. The graduate student has been hard at work in the lab taking photoabsorption spectra of an atom having a nonintegrable Hamiltonian. After months of building elect ...
Laser Wakefield Acceleration Using Few-millijoule
... The gas peak is before laser focus (Z = 0.2 mm). Top panel: isosurface plots (25%, 50% and 75% of the maximum intensity) showing the pulse dynamics at different propagating distances. Side panels display intensity profiles at cross-sectional planes through the center of the box. Bottom panel: spatia ...
... The gas peak is before laser focus (Z = 0.2 mm). Top panel: isosurface plots (25%, 50% and 75% of the maximum intensity) showing the pulse dynamics at different propagating distances. Side panels display intensity profiles at cross-sectional planes through the center of the box. Bottom panel: spatia ...
Robust dynamical decoupling
... which one can transfer information or analogously limits the number of qubits that one can control reliably [19,20]. This is manifested as a localization effect for the quantum information [19–27]. In order to overcome these limitations and implement quantum information processing (QIP) with large n ...
... which one can transfer information or analogously limits the number of qubits that one can control reliably [19,20]. This is manifested as a localization effect for the quantum information [19–27]. In order to overcome these limitations and implement quantum information processing (QIP) with large n ...
Quantum Gates and Simon`s Algorithm
... Any function f : {0, 1}n → {0, 1}m , where n is the number of input bits and m the number of output bits is said to be a Boolean function. Any Boolean function can be represented by a truth table. If f = (f1 , . . . , fm ), this is a matrix of size 2n × m where in column i we have the list of values ...
... Any function f : {0, 1}n → {0, 1}m , where n is the number of input bits and m the number of output bits is said to be a Boolean function. Any Boolean function can be represented by a truth table. If f = (f1 , . . . , fm ), this is a matrix of size 2n × m where in column i we have the list of values ...
Theory and applications of light-matter interactions in Gerasimos Angelatos
... light-matter interactions and are a promising platform for quantum information science technologies; however their development has been hindered by inherent fabrication issues. Inspired by recent nanowire growth techniques and opportunities in fundamental quantum nanophotonics, in this thesis we the ...
... light-matter interactions and are a promising platform for quantum information science technologies; however their development has been hindered by inherent fabrication issues. Inspired by recent nanowire growth techniques and opportunities in fundamental quantum nanophotonics, in this thesis we the ...
Numerical simulation of information recovery in quantum computers.
... interference and parallelism. Both of them require creation and manipulation of entanglement states involving large ensembles of quantum bits (qubits). One of the fundamental obstacles in the development of quantum computers is the loss of coherence of the quantum states involved. Decoherence produc ...
... interference and parallelism. Both of them require creation and manipulation of entanglement states involving large ensembles of quantum bits (qubits). One of the fundamental obstacles in the development of quantum computers is the loss of coherence of the quantum states involved. Decoherence produc ...
Quantum electrodynamics
In particle physics, quantum electrodynamics (QED) is the relativistic quantum field theory of electrodynamics. In essence, it describes how light and matter interact and is the first theory where full agreement between quantum mechanics and special relativity is achieved. QED mathematically describes all phenomena involving electrically charged particles interacting by means of exchange of photons and represents the quantum counterpart of classical electromagnetism giving a complete account of matter and light interaction.In technical terms, QED can be described as a perturbation theory of the electromagnetic quantum vacuum. Richard Feynman called it ""the jewel of physics"" for its extremely accurate predictions of quantities like the anomalous magnetic moment of the electron and the Lamb shift of the energy levels of hydrogen.