Electromagnetic cascade in high energy electron, positron, and

... electromagnetic fields [2], have attracted considerable interest recently. This interest is due to the rapid growth of the maximum achievable laser intensity at many existing, constructed, and projected experimental facilities. Some of these processes, previously believed to be of theoretical intere ...

Turing Machines

... observations could not be explained by the established laws of classical physics and called for a radically different way of thinking --this led to the development of Quantum Mechanics which is today regarded as the fundamental theory of Nature The price to be paid for this powerful tool is that som ...

relativistic field theory

... in general. The reason for this state of aﬀairs is not far to ﬁnd: it was clearly articulated more than ninety years ago by Hermann Minkowski, who in  had occasion to speak as follows:1 “The views of space and time which I wish to lay before you have sprung from the soil of experimental physics, ...

Weyl calculus with respect to the Gaussian measure and L^p

Repulsive Gravitational Force Field

Generation of polarization-entangled photon pairs in a cascade of

Lectures on Quantum Gravity and Black Holes

(pdf)

COMPARISON OF THE LATTICE-DYNAMICS AND CELL

Analysis of the projected Coupled Cluster Method in Electronic

... and approximating these cusps, in particular the electron-electron cusp, causes additional severe problems. After 70 years of progress, recent electronic structure calculation algorithm are powerful and demonstrate impressive accuracy. The Nobel Prize in chemistry has been awarded to Kohn, Pople for ...

- Philsci-Archive

$Creating fractional quantum Hall states with atomic clusters$

Creating fractional quantum Hall states with atomic clusters

... bosonic atoms, strongly confined along z, and subjected along x and y to an isotropic harmonic trap of frequency ω. Laguerre-Gauss laser beams are sent on the atomic sample along −z to drive Raman transitions transferring orbital angular momentum. Laser polarizations are chosen linear along x and y, ...

Principles of Quantum Universe

... This monograph is based on papers published during last 25 years by the authors and lectures delivered by one of the authors (V.P.) at the universities of Graz (Austria), Berlin, Heidelberg, Rostock (Germany), New Delhi (India), Fairﬁeld, the Argonne National Laboratory (USA), the physical faculty o ...

Finite-temperature mutual information in a simple phase transition

1 THE MINDFUL UNIVERSE (May 5, 2005)

An Introduction to Quantum Game Theory

... two particles are entangled if their wave functions cannot be written as tensor products.) This instantaneous effect is sometimes called the ‘EPR channel’, though properly speaking it should be called the Bohr channel because Bohr argued for its existence, while EPR argued against it. John Bell [1] ...

K - Research

... 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 HEISENBERG & JORDAN at first attempted to formulate the new quantum mechanics in a prope ...

QCD Matter Phase Diagram

... strong dependence on distance between interacting particles, it would be better if we would refer to both of them as strengths, but for historical reasons the term constant is used. In the left figure the fading nature of the electromagnetic interaction is easily seen, as it will be hard to miss the ...

w - Biomolecular Solid-State NMR Winter School

... State of the Spin System: The Density Operator - Pure spin state can be described by |y - State of a system of >1018 spins can be described by a density operator r^ = Sn pn |yn yn| - Combines quantum mechanics (“|y ”) and statistical mechanics (“pn”) ...

Pride, Prejudice, and Penury of ab initio transport calculations for

Nuclear lattice model and the electronic configuration

... Abstract The fundamental organizing principle resulting in the periodic table is the nuclear charge. Arranging the chemical elements in an increasing atomic number order, a symmetry pattern known as the Periodic Table is detectable. The correlation between nuclear charge and the Periodic System of t ...

Acceleration radiation, transition probabilities and trans-Planckian physics

... times correspond to modes with arbitrarily large frequencies w 0 ∼ weaτ relative to the given inertial frame [13]. This fact is manifest in the derivation in terms of Bogolubov coefficients, which requires an unbounded integral in frequencies in the intermediate steps of the derivation. However, the ...

Thermodynamic anomalies in open quantum systems: Strong

... The ergodic properties of the system may depend on energy. Hence, at different energies, different parts of phase space are accessible. This may lead to negative speciﬁc heat and other thermodynamical anomalies. An example was given by Hertel and Thirring [5]. The system might be far from the th ...

Measurement Models for Quantum Zeno and anti

Approximate solutions to the quantum problem of two opposite

... Razavy equations. Their solutions coincide with the bound solutions of the Coulomb problem and take signiﬁcant values close to the origin of the potential. This means that the relative position between both particles keeps very small. When μ >> 1, we can again approximate both Hill equations by Raza ...

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Canonical quantization

In physics, canonical quantization is a procedure for quantizing a classical theory, while attempting to preserve the formal structure, such as symmetries, of the classical theory, to the greatest extent possible.Historically, this was not quite Werner Heisenberg's route to obtaining quantum mechanics, but Paul Dirac introduced it in his 1926 doctoral thesis, the ""method of classical analogy"" for quantization, and detailed it in his classic text. The word canonical arises from the Hamiltonian approach to classical mechanics, in which a system's dynamics is generated via canonical Poisson brackets, a structure which is only partially preserved in canonical quantization.This method was further used in the context of quantum field theory by Paul Dirac, in his construction of quantum electrodynamics. In the field theory context, it is also called second quantization, in contrast to the semi-classical first quantization for single particles.

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Canonical quantization