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Conformal Bootstrap Approach to O(N) Fixed Points in Five
Conformal Bootstrap Approach to O(N) Fixed Points in Five

Weyl`s Spinor and Dirac`s Equation - weylmann.com
Weyl`s Spinor and Dirac`s Equation - weylmann.com

Algebraic approach to interacting quantum systems
Algebraic approach to interacting quantum systems

Amplitude spectroscopy of two coupled qubits
Amplitude spectroscopy of two coupled qubits

... placed between the two main qubit loops. So, we investigate here the behavior of the level populations as a function of the coupling parameter of the qubits. First, we depict a three-dimensional plot of the qubit energy dependence on the control parameter and the coupling parameter. Figure 1(a) show ...
Modeling and Control of Quantum Systems: An Introduction
Modeling and Control of Quantum Systems: An Introduction

QUANTUM MONTE CARLO SIMULATION OF TUNNELLING DEVICES USING WAVEPACKETS AND BOHM TRAJECTORIES
QUANTUM MONTE CARLO SIMULATION OF TUNNELLING DEVICES USING WAVEPACKETS AND BOHM TRAJECTORIES

Electromagnetic vacuum fluctuations, Casimir and Van der Waals
Electromagnetic vacuum fluctuations, Casimir and Van der Waals

Bell-like inequalities from symmetrized products of noncommuting
Bell-like inequalities from symmetrized products of noncommuting

... their noncommutativity, and cannot be measured simultaneously, despite theoretical attempts at such a definition27,28 . Thus the question of a joint probability function does not arise operationally in quantum theory. However, if we attempt to describe the correlations in terms of hidden variables, ...
January 20, 2004 9:50 WSPC/140-IJMPB 02353
January 20, 2004 9:50 WSPC/140-IJMPB 02353

... as topological spin current. In fact, we present an analysis and derivation of the topological spin current for a broad class of spin–orbital coupling models. In the following, we first calculate the spin current in the Rashba and Luttinger models and then discuss the topological part of the spin cu ...
ELECTROSTATIC LATTICE for srEDM
ELECTROSTATIC LATTICE for srEDM

LoPY onL - DSpace@MIT
LoPY onL - DSpace@MIT

The Classical and Quantum Mechanics of Systems with Constraints
The Classical and Quantum Mechanics of Systems with Constraints

PSOGP: A GENETIC PROGRAMMING BASED
PSOGP: A GENETIC PROGRAMMING BASED

... Mohan [1, 2, 3] suggested that the main swarm be divided into two sub-swarms. Each subswarm can be in either attraction or repulsion phase and use a different velocity update equation for each phase. Rigit and Vesterstrøm [30, 31, 40] followed a similar approach except for the fact that they didn’t ...
Tree Search and Quantum Computation
Tree Search and Quantum Computation

Spin and Quantum Measurement
Spin and Quantum Measurement

Why Quantum Computing? - Quantum Physics and Quantum
Why Quantum Computing? - Quantum Physics and Quantum

The Vector Product Defined Ch 11: Question 3
The Vector Product Defined Ch 11: Question 3

Models of wave-function collapse
Models of wave-function collapse

... encounter probabilities. And for good reason: Because the initial state is always exactly specified [including at the start of the measurement process, as in Eq. (8)], unlike in classical probability theory, where probabilities arise because of uncertainty in our knowledge of the initial state of th ...
arXiv:0906.1334v1 [cond-mat.supr
arXiv:0906.1334v1 [cond-mat.supr

PHYS201 - Wave Mechanics
PHYS201 - Wave Mechanics

Three problems from quantum optics
Three problems from quantum optics

... This thesis is concerned with three problems from the field of quantum optics. In their choice I was not motivated by attempting to explain quantum optics systematically but I rather talk about problems I was working on in the past five years. The thesis is based on a set of articles that have been ...
Chapter 3 Kinetics of Particles
Chapter 3 Kinetics of Particles

Notes/All Physics IB/Fundimental Particles
Notes/All Physics IB/Fundimental Particles

... has been designed to produce over 600 million collisions per second. Even with this enormous collision rate, the production rate of Higgs events is expected to be one every few hours—that is a lot of data to sift through to find a single event! After two and a half years of operation the LHC announc ...
PHYSICS 430 Lecture Notes on Quantum Mechanics
PHYSICS 430 Lecture Notes on Quantum Mechanics

... Newton’s Laws and the Principle of Least Action. The Euler-Lagrange equations and Hamilton’s equations. Classical mechanics in a nutshell. The classical state. 2. Historical Origins of Quantum Mechanics Black-body radiation, the photoelectric effect, the Compton effect. Heisenberg’s microscope. The ...
Why Unsharp Observables? Claudio Carmeli · Teiko Heinonen · Alessandro Toigo
Why Unsharp Observables? Claudio Carmeli · Teiko Heinonen · Alessandro Toigo

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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.
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