Supersymmetric quantum mechanics and new potentials
Supersymmetric quantum mechanics and new potentials

Detailed information may be found here
Detailed information may be found here

271, 31 (2000) .
271, 31 (2000) .

talk
talk

... This would be a local theory with hidden variables, and quantum mechanics might be considered as an averaged version of the deeper theory. Analogy: Statistical thermodynamics is the underlying theory of phenomenological thermodynamics. The positions and momenta of a huge number of particles are the ...
Quantum Computing in the de Broglie-Bohm Pilot
Quantum Computing in the de Broglie-Bohm Pilot

Million-Atom Pseudopotential Calculation of GX Mixing in GaAs AlAs
Million-Atom Pseudopotential Calculation of GX Mixing in GaAs AlAs

Invited talks - Swinburne University
Invited talks - Swinburne University

Many-Body Localization
Many-Body Localization

These notes
These notes

FPGA emulation of quantum circuits
FPGA emulation of quantum circuits

... quantum measurement procedures [1]. Nevertheless, some of the quantum effects have been successfully used in practical applications such as data encryption and communication [5]. Further, several quantum-computing systems are being developed [7]. IBM has developed a small-scale quantum machine that ...
Quantum Relaxation after a Quench in Systems with Boundaries Ferenc Iglo´i *
Quantum Relaxation after a Quench in Systems with Boundaries Ferenc Iglo´i *

... very rapidly, commonly denoted as ‘‘quench’’, for instance by using the phenomenon of Feshbach resonance and the couplings to dissipative degrees of freedom (such as phonons and electrons) are very weak. As a consequence, one can study coherent time evolution of isolated quantum systems. Among the f ...
Liquid-State NMR Quantum Computing
Liquid-State NMR Quantum Computing

View PDF - CiteSeerX
View PDF - CiteSeerX

Non-equilibrium Quantum Field Theory and - Gr@v
Non-equilibrium Quantum Field Theory and - Gr@v

... This mini-course is organized as follows. As a warm up exercise, where the main features of the fluctuationdissipation relations can be easily understood, we will explore a simple example of dissipation in (non-relativistic) quantum mechanics widely known as the Caldeira-Leggett model. I will then i ...
"Liquid-State NMR Quantum Computing" in
"Liquid-State NMR Quantum Computing" in

Classical limit for quantum mechanical energy eigenfunctions
Classical limit for quantum mechanical energy eigenfunctions

... Based on trajectories, two independent formulations differing in conceptual structure but mathematically equivalent with standard QM have been developed. These are Feynman’s path integral approach and Bohm’s causal QM respectively, which definitely enriched our understanding of the problem. In Feynm ...
6. String Interactions
6. String Interactions

Pedestrian notes on quantum mechanics
Pedestrian notes on quantum mechanics

F34TPP Theoretical Particle Physics notes by Paul Saffin Contents
F34TPP Theoretical Particle Physics notes by Paul Saffin Contents

Statistical Physics (PHY831): Part 3 - Interacting systems
Statistical Physics (PHY831): Part 3 - Interacting systems

Five ways to the nonresonant dynamic Stark effect
Five ways to the nonresonant dynamic Stark effect

Type II InAs/GaAsSb quantum dots: Highly tunable exciton geometry
Type II InAs/GaAsSb quantum dots: Highly tunable exciton geometry

... complex confinement geometry, this simple parabolic function accurately describes the ground state energy evolution calculated using three dimensional eight-band k  p methods as implemented in the Nextnanoþþ software package.26 It is important to highlight that the value of p and b can be changed o ...
available here - Centre for High Energy Physics
available here - Centre for High Energy Physics

... only two items with a single binary query, and so it needs two binary queries to carry out the same task. When the query can be factored into subqueries, e.g., the item label is searched for one digit at a time and not as a whole, the best quantum (or wave) arrangement for a database is a quaternary ...
Chapter 2 Quantum mechanics and probability
Chapter 2 Quantum mechanics and probability

Quantum Weakest Preconditions - McGill School Of Computer Science
Quantum Weakest Preconditions - McGill School Of Computer Science

Quantum field theory

In theoretical physics, quantum field theory (QFT) is a theoretical framework for constructing quantum mechanical models of subatomic particles in particle physics and quasiparticles in condensed matter physics. A QFT treats particles as excited states of an underlying physical field, so these are called field quanta.In quantum field theory, quantum mechanical interactions between particles are described by interaction terms between the corresponding underlying fields.