Quantum Gravity - General overview and recent developments
Quantum Gravity - General overview and recent developments

... Loop quantum gravity: microscopic degrees of freedom are the spin networks; SBH only follows for a specific choice of β: β = 0.237532 . . . ...
Problem set 4 Engel P7
Problem set 4 Engel P7

The Early Universe in Loop Quantum Cosmology
The Early Universe in Loop Quantum Cosmology

Dynamics of Bose-Einstein Condensates in Trapped Atomic Gases
Dynamics of Bose-Einstein Condensates in Trapped Atomic Gases

... •  this is a many-body system and I will be taking a condensed matter physics point of view in contrast to a quantum optics point of view; everything I will be talking about is most naturally described from this perspective •  these systems are inherently quantum mechanical. An isolated system can b ...
1. dia
1. dia

One photon stored in four places at once Please share
One photon stored in four places at once Please share

... from each other by light years. It is not surprising that “particle-type” detection (Fig. 1a) reveals correlations in the number of coins found in the different boxes if the total number of coins is known. If, on the other hand, identical light has been stored simultaneously in all four boxes – or, ...
Quantum interference of large organic molecules
Quantum interference of large organic molecules

Document
Document

Unit 2 – Electrons and Periodic Behavior Cartoon courtesy of
Unit 2 – Electrons and Periodic Behavior Cartoon courtesy of

Slide 101
Slide 101

... the first excited state above groundm and calculate the energy of this state. (b) Suppose that the particles are indistinguishable bosons. Write the wavefunction for the first excited state above ground, and calculate the energy of this state. (c) Suppose that the particles are somehow distinguishab ...
Quantum interference of large organic molecules
Quantum interference of large organic molecules

... their nominal masses. Although all samples were well characterized before the evaporation process, we can therefore not exclude some contamination with adducts or fragments in this high mass range. But even if there were a relative mass spread of 10%, this would only influence the wavelength distrib ...
EE1 2006: Solution to homework assignment 6 Problem 1: (a) Show
EE1 2006: Solution to homework assignment 6 Problem 1: (a) Show

... where r is the distance between the two atoms and the two parameters,  and σ depend on which atoms are involved. The shape of the curve is qualitatively similar to the Morse potential curve, but is more appropriate for van der Waals interactions (while Morse is more appropriate for molecules with a ...
Towards a Quantum Mechanical Interpretation of Homeopathy
Towards a Quantum Mechanical Interpretation of Homeopathy

Calculus with Analytic Geometry
Calculus with Analytic Geometry

Honors Directed Study Abstract - PS 303
Honors Directed Study Abstract - PS 303

... densities, classically it is a concave up parabola, whereas the quantum probability is concave down for small quantum numbers, and further the classical is a smooth distribution. With quantum number 2, it is neither smooth nor indicative of a parabolic curve, as the density is still highest nearer t ...
Quantum Mechanics, Locality and Realism
Quantum Mechanics, Locality and Realism

PMA-ChairCouncil-3dec2008-preskill
PMA-ChairCouncil-3dec2008-preskill

... In general, we can’t simulate a many-particle quantum system with a classical computer. But we can simulate one quantum system with another one! The atomic physicists have developed remarkable tools for cooling and controlling atoms. Exploiting these tools, we can study (and discover) quantum many-p ...
2.2 Schrödinger`s wave equation
2.2 Schrödinger`s wave equation

... Schrödinger’s time-independent equation We can postulate a Schrödinger equation for any particle of mass m ...
Generalized uncertainty principle and analogue of
Generalized uncertainty principle and analogue of

... beams is highly challenging with far reaching fundamental technological applications. One key obstacle routinely encountered while implementing sub-wavelength optical schemes is how to overcome the limitations set by standard Fourier optics. A strategy to overcome these difficulties is to utilize th ...
Three problems from quantum optics
Three problems from quantum optics

chapter 7 part 3
chapter 7 part 3

... there is no preferred axis in the atom, nevertheless we consider z axis of spherical polar coordinate system sometimes as special for models vector L is perpendicular to plane where rotational motion takes place, sign (sense) of the vector is given by right hand rule an electron revolving around the ...
JCE0597 p605 Numerical Methods for Finding Momentum Space
JCE0597 p605 Numerical Methods for Finding Momentum Space

... Frank Rioux Department of Chemistry, Saint John’s University, Collegeville, MN 56321 For chemists, quantum mechanics consists to a large extent in solving Schrödinger’s equation in its position representation for a wide variety of problems of varying complexity. This activity yields quantized energy ...
TRM-7
TRM-7

... discussed earlier for harmonic oscillator) ...
Quantum phase transitions and novel phases in condensed matter
Quantum phase transitions and novel phases in condensed matter

... Phase diagrams of LiHoF4 and a typical high-Tc superconductor such as YBa2Cu3O6+x ...
Quantum Computing and Quantum Topology
Quantum Computing and Quantum Topology

... If a physical system were to have quantum topological (necessarily nonlocal) degrees of freedom, which were insensitive to local probes, then information contained in them would be automatically protected against errors caused by local interactions with the ...

Coherent states