The Wave Function
The Wave Function

... ‘probability waves’ in the sense that the amplitude squared of the waves gives the probability of observing (or detecting, or finding – a number of different terms are used) the particle in some region in space. Hand-in-hand with this interpretation is the Heisenberg uncertainty principle which, his ...
Loop Quantum Gravity and Effective Matter Theories
Loop Quantum Gravity and Effective Matter Theories

An alternative quantization procedure for the Hydrogen atom
An alternative quantization procedure for the Hydrogen atom

OAM12-Yuan
OAM12-Yuan

The Hierarchy Problem in the Standard Model and
The Hierarchy Problem in the Standard Model and

... Introduction and Notation The Standard Model describes the elementary particles of our world and their interactions with remarkable success. At first sight, there seems no reason why it should not be the ultimate theory of nature. However, a closer look reveals that there are good reasons for expect ...
Quantum mechanical approaches to the virial S.LeBohec
Quantum mechanical approaches to the virial S.LeBohec

The Weak Force: From Fermi to Feynman
The Weak Force: From Fermi to Feynman

A Formal Cause Beyond Space and Time
A Formal Cause Beyond Space and Time

... question the concept of wave and the continuity of space. His law demonstrates that energy is only absorbed and emitted as discrete packets, but energy does not travel in space in the form of particles. The electromagnetic waves are not discarded by Planck: They still serve as the carriers of energy ...
The Unruh effect revisited - Department of Mathematics and Statistics
The Unruh effect revisited - Department of Mathematics and Statistics

indistinguishability - University of Oxford
indistinguishability - University of Oxford

le journal de physique - Département de Physique de l`Ecole
le journal de physique - Département de Physique de l`Ecole

Is there a problem with quantum wormhole states in N= 1
Is there a problem with quantum wormhole states in N= 1

... to calculate the effects of wormhole physics from Green’s functions, where these have been factorized by introducing a complete set of wormhole states [16]) and not just trying to identify and label a explicit expression which would correspond either to a wormhole ground state or an excited one. The ...
Second quantization of the elliptic Calogero
Second quantization of the elliptic Calogero

Proton- [Proton - lambda] correlations in central Pb + Pb
Proton- [Proton - lambda] correlations in central Pb + Pb

... 0.5 cm anywhere between the position of the first measured point on the tracks and the target plane are considered as V0 candidates. Assigning proton and pion masses to the positively and negatively charged decay particle, the invariant mass of a  candidate is calculated. A significant reduction of ...
Aran Sivaguru Dissertation
Aran Sivaguru Dissertation

1 Correlated Electrons: Why we need Models to - cond
1 Correlated Electrons: Why we need Models to - cond

Quantum Computers Can Search Rapidly by Using Almost
Quantum Computers Can Search Rapidly by Using Almost

Chapter 10 The Hydrogen Atom The Schrodinger Equation in
Chapter 10 The Hydrogen Atom The Schrodinger Equation in

pdf
pdf

... the most ‘fundamental’. For example, the best known hidden variable theory — the de Broglie-Bohm theory — assigns a privileged role to position: it asserts that, no matter what the quantum state is, there are point particles with definite positions, and the distribution of these particles agrees wi ...
Probability Current and Current Operators in Quantum Mechanics 1
Probability Current and Current Operators in Quantum Mechanics 1

Chern-Simons theory and Weyl quantization
Chern-Simons theory and Weyl quantization

Nonlinear quantum mechanics, the superposition principle, and the
Nonlinear quantum mechanics, the superposition principle, and the

Lecture 22.AngularMo..
Lecture 22.AngularMo..

Tuesday, June 21, 2005
Tuesday, June 21, 2005

. of Statistica. nterpretation
. of Statistica. nterpretation

... but not position in the first example). Indeed the physical implication of the uncertainty principle (discussed in detail in Sec. 3) is that no state preparation procedure is possible which would yield an ensemble of systems identical in all of their observable properties. Thus it is most natural to ...

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.