Towards a microscopic Description of classical Solutions in Field
Towards a microscopic Description of classical Solutions in Field

... Wq1 (τ, 0) − Wq1 (0, τ + iβ) as a functions of τ . For the additional parameter we choose z0 = 1. We choose three different accelerations for the Rindler observer (all satisfying a > 1/RAdS ): a = 2 (straight), a = 3 (largely dashed) and a = 4 (dashed). The unit length scale in this figure is given ...
AdS/CFT Course Notes - Johns Hopkins University
AdS/CFT Course Notes - Johns Hopkins University

... are most interested in metals at ∼ 300K and below. At these energies metals are very well described by the effective QFT for the Fermi liquid theory. See [1] for a beautiful discussion of this theory and the Wilsonian philosophy. Research continues to understand the effective QFT that describes so-c ...
PDF (Thesis)
PDF (Thesis)

Quantum Energy Teleportation - UWSpace
Quantum Energy Teleportation - UWSpace

... The relation between energy and information has intrigued physicists for quite some time now. Usually, we speak of such a relation in the context of thermodynamics or black hole physics. Recently, quite a bit of work has been interested in the thermodynamics of spacetime itself[37, 14], and on emerg ...
lecture 2
lecture 2

... Regularisation and Renormalisation  Such “ultraviolet” divergences, and others which are more complicated, arise whenever loops appear in perturbation theory. (The others include “infrared” divergences associated with the gluons’ masslessness; e.g., consider what would happen in Eq. (113) with m0 ...
QUANTUM MECHANICS B PHY-413 Note Set No. 7
QUANTUM MECHANICS B PHY-413 Note Set No. 7

... (We will show later that there is also the possibility of ` values 1=2; 3=2; 5=2; : : : for angular momentum in general, including spin, but not for orbital angular momentum.) From the above summary we see that the electron wave function should not only carry the energy label E ( or equivalently the ...
Light, Matter, and Geometry: The Cornerstones of
Light, Matter, and Geometry: The Cornerstones of



Three particle Hyper Entanglement: Teleportation and Quantum Key
Three particle Hyper Entanglement: Teleportation and Quantum Key

... one particle to another with the use of an entangled pair of particles, which had been experimentally verified in different quantum systems [4, 5]. However, distinguishing all the four Bell states of the photonic qubits has remained a fundamental difficulty in achieving 100% teleportation. In the fi ...
Measurement Models for Quantum Zeno and anti
Measurement Models for Quantum Zeno and anti

Quantum fluctuation relations: Foundations and applications
Quantum fluctuation relations: Foundations and applications

The Unruh effect in quantum information beyond the single
The Unruh effect in quantum information beyond the single

... MINKOWSKI, UNRUH AND RINDLER MODES ...
Computational power of quantum many
Computational power of quantum many

... The main part is concerned with new schemes for measurement-based quantum computation. Computers utilizing the laws of quantum mechanics promise an exponential speed-up over purely classical devices. Recently, considerable attention has been paid to the measurement-based paradigm of quantum computer ...
Compatibility of Quark and Resonant Picture Excited Baryon
Compatibility of Quark and Resonant Picture Excited Baryon

BUSSTEPP Lectures on String Theory
BUSSTEPP Lectures on String Theory

Exotic path integrals and dualities
Exotic path integrals and dualities

Quantum dynamics in strong fluctuating fields - Physik Uni
Quantum dynamics in strong fluctuating fields - Physik Uni

Fractional Fourier–Kravchuk transform
Fractional Fourier–Kravchuk transform

Wigner function formalism in Quantum mechanics
Wigner function formalism in Quantum mechanics

UNRAVELING OPEN QUANTUM SYSTEMS: CLASSICAL
UNRAVELING OPEN QUANTUM SYSTEMS: CLASSICAL

... vacuum vector on hR as |0 = e0 ⊗ · · · ⊗ e0 ⊗ · · · . Identify hS with hS ⊗ C|0 and define the projection P = 1 ⊗ |00| : hS ⊗ hR → hS . In which follows we assume that all the operators are bounded, to avoid technicalities at this stage. The method followed by Attal and Joye consists of assuming ...
A New Perspective on Chiral Gauge Theories
A New Perspective on Chiral Gauge Theories

Density instabilities in multi-layer dipolar Fermi gases
Density instabilities in multi-layer dipolar Fermi gases

... This thesis is articulated as follows: In Chapter 1 we recall schematically the linear response theory, thus introducing basic quantities such as the response function (or susceptibility), the static structure factor and so on, then we illustrate the RPA as a mean field theory, adducing some success ...
Quantum Computer - Physics, Computer Science and Engineering
Quantum Computer - Physics, Computer Science and Engineering

Theoretical and observational consistency of Massive Gravity
Theoretical and observational consistency of Massive Gravity

... Galileon interactions as an important class of infrared modifications of general relativity. We will present their main features and discuss how they can be constructed in the framework of higher dimensional space-time. This will be then an adequate place to illustrate our work of de Sitter Galileon ...
Quantized field description of rotor frequency
Quantized field description of rotor frequency

Propagator

In quantum mechanics and quantum field theory, the propagator gives the probability amplitude for a particle to travel from one place to another in a given time, or to travel with a certain energy and momentum. In Feynman diagrams, which calculate the rate of collisions in quantum field theory, virtual particles contribute their propagator to the rate of the scattering event described by the diagram. They also can be viewed as the inverse of the wave operator appropriate to the particle, and are therefore often called Green's functions.