Document
Document

... 6. Find the wave functions and energy levels of the stationary states of a two -particle plane rotator with a moment of inertia equal to I=a2, where is the reduced mass of the this poir of particle and a is their distance apart. 7. Two particles of mass m are attached to the ends of a massless ri ...
PDF only - at www.arxiv.org.
PDF only - at www.arxiv.org.

... two different explanations for the WM's agreement with the past α and future strong measurements. The past α value, so goes the one-vector account, has been already “collapsed,” so the α WM only passively recorded it together with a great deal of noise, while the future β value was, contrary to the ...
Quantum Process on 1 quabit system Au Tung Kin 2009264740 1
Quantum Process on 1 quabit system Au Tung Kin 2009264740 1

... of electrons is uncertain, that is, we may have nonzero probability to get spin up or spin down after measurement. Thus, the state of an electron is more complicated rather than either spin up or down. Since the measurement outcomes are only two, it is “one qubit” system. In mathematics, we use vect ...
Web FTP - Visicom Scientific Software
Web FTP - Visicom Scientific Software

PDF
PDF

... states with the same value of E and E, as can be checked through equation (8). Moreover, T⊥ /T0 (E, E) does not depend on the number M of subsystems and, for any value of the number of energy levels N , is always close to one (see figure 2). In particular, for N = 2, the system achieves the quantu ...
Concept of the Global Material Corpuscular Elastic Medium
Concept of the Global Material Corpuscular Elastic Medium

TALK - ECM-UB
TALK - ECM-UB

... • Now vary the Bianchi identity times a Killing vector of the de Sitter background: ...
Atomic Structure and Periodic Trends
Atomic Structure and Periodic Trends

Enhanced Energy Distribution for Quantum Information Heat
Enhanced Energy Distribution for Quantum Information Heat

... they could be avoided with careful accounting for information and energy trade-off in the presence of feed-back systems [14,15]. Generally, they use a controller, which is governed by a number of bits (qubits in quantum environments). These bits are stored in some information container or memory. To ...
Relations between Massive and Massless one
Relations between Massive and Massless one

Six easy roads to the Planck scale
Six easy roads to the Planck scale

Introduction to the Fractional Quantum Hall Effect
Introduction to the Fractional Quantum Hall Effect

Surrey seminar on CQP - School of Computing Science
Surrey seminar on CQP - School of Computing Science

Greco1 - INFN - Torino Personal pages
Greco1 - INFN - Torino Personal pages

... Quark-Gluon Plasma and Heavy-Ion Collisions – Turin (Italy), 7-12 March 2011 ...
Quantum Operating Systems - Henry Corrigan
Quantum Operating Systems - Henry Corrigan

... the performance of classical software systems? • What would a distributed system of quantum computers look like? And what new functionality could such a system provide? This paper is necessarily (and shamelessly) speculative: it is far too early to know exactly what sort of quantum computing hardwar ...
JQI Fellows - University of Maryland, College Park
JQI Fellows - University of Maryland, College Park

The Bohr model depicts atoms as small, positively
The Bohr model depicts atoms as small, positively

Lecture 5: The Hydrogen Atom (continued). In the previous lecture
Lecture 5: The Hydrogen Atom (continued). In the previous lecture

Finite temperature correlations of the Ising chain in transverse field
Finite temperature correlations of the Ising chain in transverse field

THE C∗-ALGEBRAIC FORMALISM OF QUANTUM MECHANICS
THE C∗-ALGEBRAIC FORMALISM OF QUANTUM MECHANICS

On classical and quantum effects at scattering of fast charged
On classical and quantum effects at scattering of fast charged

Slides
Slides

... excitations is modified (free particles  phonons (Goldstone modes)), and the supercurrent becomes stable against the production of these excitations (up to the Landau critical velocity). Then at T = 0,  s   . (although condensate fraction < 1.) ...
Feynman`s formulation of Quantum mechanics
Feynman`s formulation of Quantum mechanics

... Richard Feynman, building on the work previously done by Paul Dirac [4]. The new development is now called the path integral formulation of quantum mechanics, or alternatively Feynman’s formulation of quantum mechanics. This approach is an extension of the notion of classical action. In classical me ...
Thermodynamics - Bidhannagar College
Thermodynamics - Bidhannagar College

Microsoft Word _ arxiv paper - Philsci
Microsoft Word _ arxiv paper - Philsci

Quantum state