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Magnetoabsorption spectra of intraexcitonic transitions in GaAs
... 共b兲 Intraexcitonic lh and hh 1s→np ⫾ magnetoabsorption coefficient for the case of left- ( ⫺ ) and right-hand side ( ⫹ ) circularly polarized light in the QW plane. The column of numbers on the left-hand side gives values of the applied magnetic field in T. ...
... 共b兲 Intraexcitonic lh and hh 1s→np ⫾ magnetoabsorption coefficient for the case of left- ( ⫺ ) and right-hand side ( ⫹ ) circularly polarized light in the QW plane. The column of numbers on the left-hand side gives values of the applied magnetic field in T. ...
Dr. Charles William Lucas
... the universal force law he has refined the ring model to describe the complete set of elementary particles, their decay schemes, reactions, and excited states by introducing the classical concept of stable elementary particles being composed of primary, secondary and tertiary level three dimensiona ...
... the universal force law he has refined the ring model to describe the complete set of elementary particles, their decay schemes, reactions, and excited states by introducing the classical concept of stable elementary particles being composed of primary, secondary and tertiary level three dimensiona ...
Some New Classical and Semiclassical Models for Describing
... within either a fully classical or a semiclassical approach. Several examples of such approaches exist; for example, a model used by Miller and co-workers10,11 (which is patterned after Tully and Preston’s surface-hopping models for treating electronically nonadiabatic processes12) is a fairly primi ...
... within either a fully classical or a semiclassical approach. Several examples of such approaches exist; for example, a model used by Miller and co-workers10,11 (which is patterned after Tully and Preston’s surface-hopping models for treating electronically nonadiabatic processes12) is a fairly primi ...
Extracting resonance parameters from experimental data on scattering of charged particles. Paul Vaandrager
... The Hamiltonian for a two-body system is of course given by equation (2.15). Applying the partial wave decomposition for a central potential, as done by any text on quantum mechanics (I like Griffiths [1]), we obtain the radial Schrödinger ...
... The Hamiltonian for a two-body system is of course given by equation (2.15). Applying the partial wave decomposition for a central potential, as done by any text on quantum mechanics (I like Griffiths [1]), we obtain the radial Schrödinger ...
Quantum memory effects on the dynamics of electrons in small gold
... The simplest universal XC potential, called the adiabatic local density approximation (ALDA)2 is based on the static properties of the homogeneous electron gas. ALDA is exact in the limit of low frequency/long wavelength variations in the density. The ALDA and other adiabatic functionals do not allo ...
... The simplest universal XC potential, called the adiabatic local density approximation (ALDA)2 is based on the static properties of the homogeneous electron gas. ALDA is exact in the limit of low frequency/long wavelength variations in the density. The ALDA and other adiabatic functionals do not allo ...
The AdS/CMT manual for plumbers and electricians
... about can however safely skip the boxes, of course realizing that he/she missing some essence that however will not prohibit him/her to get an impression of what is going in the sections following the box. The casual reader might even find parts of the un-boxed text here and there on the heavy side. ...
... about can however safely skip the boxes, of course realizing that he/she missing some essence that however will not prohibit him/her to get an impression of what is going in the sections following the box. The casual reader might even find parts of the un-boxed text here and there on the heavy side. ...
Transposition in Quantum Information Theory
... exactly known. But as quantum theory is an inherent statistical theory, it is useful to allow for statistical mixtures of pure states. The above decomposition of the state X ∈ Mn shows that X can be interpreted as a statistical mixture of the pure states |ii hi| ∈ Mn with probabilities pi ∈ R+ , whi ...
... exactly known. But as quantum theory is an inherent statistical theory, it is useful to allow for statistical mixtures of pure states. The above decomposition of the state X ∈ Mn shows that X can be interpreted as a statistical mixture of the pure states |ii hi| ∈ Mn with probabilities pi ∈ R+ , whi ...
- Philsci
... Strictly speaking this is meant to stand for any given system, and for any period of time however small. The LFE will be central to this paper, so I should say a little more about it. As I said, it tells us how fields affect particles. It is often presented as F = q(E + v x B), with the vector quant ...
... Strictly speaking this is meant to stand for any given system, and for any period of time however small. The LFE will be central to this paper, so I should say a little more about it. As I said, it tells us how fields affect particles. It is often presented as F = q(E + v x B), with the vector quant ...
Spin-dependent Transport of Interacting Electrons in Mesoscopic
... devices on a quasi-classical level is based on the Boltzmann equation [19]. It describes the dynamics of a probability distribution f (~x, ~p, t) to find a particle with momentum ~p at position ~x. The Boltzmann distribution function obviously is a classical object, as in quantum mechanics the simul ...
... devices on a quasi-classical level is based on the Boltzmann equation [19]. It describes the dynamics of a probability distribution f (~x, ~p, t) to find a particle with momentum ~p at position ~x. The Boltzmann distribution function obviously is a classical object, as in quantum mechanics the simul ...
Radiation pressure and momentum transfer in dielectrics: The
... currents Lagrangian supplies all that is required for the kind of problem of interest here. To counter the claim sometimes made that only the Abraham tensor is correct, we devote the remainder of this section to an outline of the historical reasons for the claim and to the justification for safely i ...
... currents Lagrangian supplies all that is required for the kind of problem of interest here. To counter the claim sometimes made that only the Abraham tensor is correct, we devote the remainder of this section to an outline of the historical reasons for the claim and to the justification for safely i ...
Quantum Computation, Quantum Theory and AI
... them are much faster than the classical ones, Shor and Grover’s works stimulated an intensive investigation in quantum computation. Since then, quantum computation has been an extremely exciting and rapidly growing field of research. Since it revolutionized the very notion of computation, quantum co ...
... them are much faster than the classical ones, Shor and Grover’s works stimulated an intensive investigation in quantum computation. Since then, quantum computation has been an extremely exciting and rapidly growing field of research. Since it revolutionized the very notion of computation, quantum co ...
PDF only
... The liquid argon time projection chamber (TPC) is a leading technology candidate for the type of large scale underground detector widely acknowledged to be the next-generation project in the areas of neutrino oscillation physics, astro-particle physics and proton decay. The current challenge is to b ...
... The liquid argon time projection chamber (TPC) is a leading technology candidate for the type of large scale underground detector widely acknowledged to be the next-generation project in the areas of neutrino oscillation physics, astro-particle physics and proton decay. The current challenge is to b ...
Creation, detection, and decoherence of macroscopic quantum superposition states
... particle number 关22,23兴, so there is a strong need to find systems in which such maximally entangled states of large numbers of particles can be generated without rapid collapse due to decoherence. An atomic BEC 关24–26兴 may be such a system, as its large degree of spatial and temporal coherence is w ...
... particle number 关22,23兴, so there is a strong need to find systems in which such maximally entangled states of large numbers of particles can be generated without rapid collapse due to decoherence. An atomic BEC 关24–26兴 may be such a system, as its large degree of spatial and temporal coherence is w ...
Metric gluing of Brownian and sqrt(8/3)-Liouville
... Also let D ⊂ C be a simply connected domain and let x, y, z1 , . . . , zn ∈ D ∪ ∂D. A chordal SLEκ (ρ) from x to y in D is a variant of chordal SLEκ from x to y in D which has additional force points at z1 , . . . , zn of weights ρ1 , . . . , ρn , respectively. It is a conformally invariant process ...
... Also let D ⊂ C be a simply connected domain and let x, y, z1 , . . . , zn ∈ D ∪ ∂D. A chordal SLEκ (ρ) from x to y in D is a variant of chordal SLEκ from x to y in D which has additional force points at z1 , . . . , zn of weights ρ1 , . . . , ρn , respectively. It is a conformally invariant process ...
Ab initio embedded cluster study of optical second harmonic
... allow a proper calculation of optical spectra in the UV and the visible range. In our study, we do not only perform an ab initio calculation to estimate d–d transitions but we also assess the relative importance of the different electronic correlations. In order to do so, d–d excitation energies are ...
... allow a proper calculation of optical spectra in the UV and the visible range. In our study, we do not only perform an ab initio calculation to estimate d–d transitions but we also assess the relative importance of the different electronic correlations. In order to do so, d–d excitation energies are ...
- Philsci
... probability is to be introduced into the picture, it must necessarily be by adding something to the interpretation” (p. 201). However, to “add something to the interpretation” typically means to forsake the central Everettian idea that the wave function is a complete description of the physical worl ...
... probability is to be introduced into the picture, it must necessarily be by adding something to the interpretation” (p. 201). However, to “add something to the interpretation” typically means to forsake the central Everettian idea that the wave function is a complete description of the physical worl ...
Quantum electrodynamics
![](https://commons.wikimedia.org/wiki/Special:FilePath/Dirac_3.jpg?width=300)
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.