research statement in pdf
... • Entanglement and Thermalization in physical states There are many things to do. First and foremost, we need to implement energy constraints in the ensemble of physical states so to prove that the reduced system is typically a thermal state. This result would somehow complete the program of giving ...
... • Entanglement and Thermalization in physical states There are many things to do. First and foremost, we need to implement energy constraints in the ensemble of physical states so to prove that the reduced system is typically a thermal state. This result would somehow complete the program of giving ...
Tuning of spin resonance by an electric current Z. W
... Present concepts for spintronic devices invoke the manipulation of spins by electric voltages or currents. This task is conceptually accomplished making use of spinorbit (SO) coupling which is a mechanism involving both electronic and spin properties: SO interaction is seen by the spin of an electro ...
... Present concepts for spintronic devices invoke the manipulation of spins by electric voltages or currents. This task is conceptually accomplished making use of spinorbit (SO) coupling which is a mechanism involving both electronic and spin properties: SO interaction is seen by the spin of an electro ...
Quantum electrical transport in samples of limited
... findings and the explanation thereof in terms of models which are consistent with currently accepted theory, but will frequently stop short of a full exploration of the nuances. It is assumed that the reader has a working knowledge of models of the behavior of electrons in metallic conductors and se ...
... findings and the explanation thereof in terms of models which are consistent with currently accepted theory, but will frequently stop short of a full exploration of the nuances. It is assumed that the reader has a working knowledge of models of the behavior of electrons in metallic conductors and se ...
QUANTUM INFORMATION, COMPUTATION AND FUNDAMENTAL
... Quantum Bit or Qubit Suppose we represent a bit 0 or 1 by saying that the spin of a neutron is up or down, or we could say an atom is in ground or in an excited state, or a photon is horizontally or vertically polarized. All these systems are called two-state quantum systems because they can remain ...
... Quantum Bit or Qubit Suppose we represent a bit 0 or 1 by saying that the spin of a neutron is up or down, or we could say an atom is in ground or in an excited state, or a photon is horizontally or vertically polarized. All these systems are called two-state quantum systems because they can remain ...
Physics of Plasma(27970 clean file)
... We found that two different fast electrons exist in the presence of self-generated azimuthal magnetic field. Two sources of multi-MeV electrons are distinguished from the relativistic laser-plasma interaction. The first is that the electron acceleration depends on the laser intensity, known as the p ...
... We found that two different fast electrons exist in the presence of self-generated azimuthal magnetic field. Two sources of multi-MeV electrons are distinguished from the relativistic laser-plasma interaction. The first is that the electron acceleration depends on the laser intensity, known as the p ...
QFT on curved spacetimes: axiomatic framework and applications
... precisely expressed by the German word Nahwirkungsprinzip. It states that each degree of freedom is influenced only by a relatively small number of other degrees of freedom. This induces a concept of neighborhoods in the set of degrees of freedom. The original motivation for developing QFT was to co ...
... precisely expressed by the German word Nahwirkungsprinzip. It states that each degree of freedom is influenced only by a relatively small number of other degrees of freedom. This induces a concept of neighborhoods in the set of degrees of freedom. The original motivation for developing QFT was to co ...
Limits of fractality: Zeno boxes and relativistic particles
... Confinement in a box with hard walls makes things rough. Berry [1] showed that the wave function of a particle so restricted is nowhere differentiable, neither in time nor in space. Specifically, let a particle be confined to a box, B, in which its dynamics are free but for which its wave function, ...
... Confinement in a box with hard walls makes things rough. Berry [1] showed that the wave function of a particle so restricted is nowhere differentiable, neither in time nor in space. Specifically, let a particle be confined to a box, B, in which its dynamics are free but for which its wave function, ...
Topological Field Theories in 2 dimensions
... general theory of Frobenius manifolds shows that, near any point with semi-simple quantum multiplication, the eigenvalues of quantum v–multiplication give a local coordinate system on the parameter space, [D2, Thm. 3.1]. The Frobenius manifold of quantum cohomology contains answers to most enumerati ...
... general theory of Frobenius manifolds shows that, near any point with semi-simple quantum multiplication, the eigenvalues of quantum v–multiplication give a local coordinate system on the parameter space, [D2, Thm. 3.1]. The Frobenius manifold of quantum cohomology contains answers to most enumerati ...
11 Selection Postulates and Probability Rules in the Problem of
... key features that lead to the solution of the problem are, first, entanglement of states of the measured system S and the device D during measurement like in (2), second, existence of the perception horizon of the human consciousness restricted only by the classical objects, and third, uniqueness of ...
... key features that lead to the solution of the problem are, first, entanglement of states of the measured system S and the device D during measurement like in (2), second, existence of the perception horizon of the human consciousness restricted only by the classical objects, and third, uniqueness of ...
Performance of 1-mm Silicon Photomultiplier
... trench between the microcells and filling it with an optically opaque material. F. Afterpulsing Afterpulsing is the name given to Geiger pulses that occur after and are correlated to a random dark or photon initiated Geiger pulse. Afterpulsing occurs due to the release of carriers captured by traps ...
... trench between the microcells and filling it with an optically opaque material. F. Afterpulsing Afterpulsing is the name given to Geiger pulses that occur after and are correlated to a random dark or photon initiated Geiger pulse. Afterpulsing occurs due to the release of carriers captured by traps ...
20041014090010101-148859
... instability and evolves into nonlinear state with strong localized parallel electric fields produced by “electronholes” and lower hybrid waves – resulting electron scattering produces anomalous resistivity that is sufficient to break the frozen-in condition ...
... instability and evolves into nonlinear state with strong localized parallel electric fields produced by “electronholes” and lower hybrid waves – resulting electron scattering produces anomalous resistivity that is sufficient to break the frozen-in condition ...
abstract
... electron temperature in ECR plasma is relatively high so that the charge up damage is often caused on substrates. Thus, to produce a large diameter ECR plasma with low electron temperature is one of the most important subjects for plasma application. In order to control the electron temperature, som ...
... electron temperature in ECR plasma is relatively high so that the charge up damage is often caused on substrates. Thus, to produce a large diameter ECR plasma with low electron temperature is one of the most important subjects for plasma application. In order to control the electron temperature, som ...
Correlation Between the Energy Shell Structure and Geometry In
... electronic structure of metallic nanoclusters and their geometry. This problem is of fundamental value, since the geometry, in turn, affects the electronic structure and spectrum. For this reason it has attracted much interest (see, e.g, [1-7]). As is known, the electronic states of many metallic na ...
... electronic structure of metallic nanoclusters and their geometry. This problem is of fundamental value, since the geometry, in turn, affects the electronic structure and spectrum. For this reason it has attracted much interest (see, e.g, [1-7]). As is known, the electronic states of many metallic na ...
High-Performance Computing and Quantum Processing - HPC-UA
... Міжнародна конференція "Високопродуктивні обчислення" HPC-UA’2012 (Україна, Київ, 8-10 жовтня 2012 року) ________________________________________________________________________________________________________________________ ...
... Міжнародна конференція "Високопродуктивні обчислення" HPC-UA’2012 (Україна, Київ, 8-10 жовтня 2012 року) ________________________________________________________________________________________________________________________ ...
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.