Diapositive 1
Diapositive 1

... eigenstates of Hext have a well defined momentum (plane waves) acts on internal and external degrees of freedom ...
Dual Nature4 - Cbsephysicstutorials
Dual Nature4 - Cbsephysicstutorials

... (a) Estimate the speed with which electrons emitted from a heated emitter of an evacuated tube impinge on the collector maintained at a potential difference of 500 V with respect to the emitter. Ignore the small initial speeds of the electrons. The specific charge of the electron, i.e., its e/m is g ...
On the transverse mode of an atom laser
On the transverse mode of an atom laser

... Path integrals are usually not exactly solvable, but they can be approximated well when for example few classical paths xcl (t) are dominant. We can then restrict the integral to small deviations around them S[x] = S[xcl + δx]. This will provide a qualitative understanding of the observed fringes as ...
The SO(4) Symmetry of the Hydrogen Atom
The SO(4) Symmetry of the Hydrogen Atom

... this problem are of course known exactly. We shall demonstrate an alternative approach to this problem that was apparently originally developed by Pauli and Fock [6, 5]. Aside from being “elegant,” this new approach gives insight into a so called “hidden symmetry” of the hydrogen atom. In short, we ...
Forces in Confined Fields
Forces in Confined Fields

... in 1975 [5]. This proposal was the starting point for a series of exciting experiments which led to the 1997 Nobel prize in physics. The mechanical force in laser trapping and cooling experiments can be understood on a semiclassical basis where the electromagnetic field is treated classically and th ...
Spectral Super-Resolution by Understanding Superposition
Spectral Super-Resolution by Understanding Superposition

bosons fermions
bosons fermions

... n  e  (   ) Boltzmann distribution high temperatures, dilute gases ...
Document
Document

Superluminal Quantum Models of the Photon and Electron
Superluminal Quantum Models of the Photon and Electron

Spin-charge separation in ultra
Spin-charge separation in ultra

... external potential, and ω is the frequency of the longitudinal confinement. This equation is just the expression of the fact that the energy cost of adding a particle to the system equals to the chemical potential corrected by the local value of the external potential. Generally speaking, the extern ...
Lectures 6-7
Lectures 6-7

... For four of the d orbitals, both of these nodes are planes, giving a ‘petal-shaped’ orbital. For the fifth d orbital (_____),the nodes look more like a pair of inverted cones. This gives an orbital that looks a bit like a p orbital with a doughnut around it. (Note the phases, though; they are differ ...
Mathcad - EPRBell
Mathcad - EPRBell

... The switches on the detectors are set randomly so that all nine possible settings of the two detectors occur with equal frequency. Local realism holds that objects have properties independent of measurement and that measurements at one location on a particle cannot influence measurements of another ...
Chapter 2 Atomic structure and spectra
Chapter 2 Atomic structure and spectra

... where φj (qi ) = Rnj j (ri )Yj mj (θi , ϕi )σmsj represents a spin orbital with σmsj being the spin part of the orbital, either α for msj = 1/2 or β for msj = −1/2 . The electron wave function in Equation (2.16) gives the occupation of the atomic orbitals and represents a given electron configurat ...
Jeopardy Atomic Physics
Jeopardy Atomic Physics

... What is the Pauli Exclusion Principle? No two electrons can occupy the same quantum state at the same time . ...
Quantum mechanical interaction-free measurements | SpringerLink
Quantum mechanical interaction-free measurements | SpringerLink

Beyond the Cookie Cutter Paradigm
Beyond the Cookie Cutter Paradigm

... If the two particles are of different types—say, a proton and a neutron,— there is a fact of the matter about the alternative taken—if the outgoing particle heading westward is of the same type as the incoming particle heading southward, the first alternative has taken place, and if the outgoing par ...
Why There are 3 Dimensions Final 4a
Why There are 3 Dimensions Final 4a

... One for all and Three in one We experience three dimensions because time/gravity/relativity or the Higgs field as well as electromagnetic/ , weak and the strong forces all intersect in three dimensions at one sub-quantun point.  And fields of spin and thier entropy transports the standard models p ...
Optically detecting the quantization of collective atomic motion
Optically detecting the quantization of collective atomic motion

... quantum collective motion. (A) Photon spectra of light exiting the cavity, scattered by collective atomic motion. Shown are the Stokes sidebands (left panels, red) and anti-Stokes sidebands (right panels, blue) at various cooperativities (from top to bottom, Com = 9.6, 1.9, 0.4), together with the p ...
Three Pictures of Quantum Mechanics (Thomas Shafer
Three Pictures of Quantum Mechanics (Thomas Shafer

... In the Schrödinger picture, the operators are constant while the basis changes is time via the Schrödinger equation. ...
Electron Configuration
Electron Configuration

Implementations of Quantum Information
Implementations of Quantum Information

... Driving the Ion  Each laser beam acts on one ion located at the node of the laser field standing wave.  There are two excited states, with transition to q=0 or q=1 determined by laser polarization.  Ions share a collective centre-of-mass motion with energy restricted to zero or one phonon. e1 ...
Chapter 7 The Quantum Mechanical Model of the Atom
Chapter 7 The Quantum Mechanical Model of the Atom

...  this is called the Photoelectric Effect ...
Ideal Quantum Gases
Ideal Quantum Gases

... In classical mechanics identical particles remain distinguishable because it is possible, at least in principle, to label them according to their trajectories. Once the initial position and momentum is determined for each particle with the infinite precision available to classical mechanics, the swa ...
Simulating Physics with Computers Richard P. Feynman
Simulating Physics with Computers Richard P. Feynman

... Solution: assume/hope/pretend that the laws of nature are discrete at a level sufficiently fine that no current experimental evidence is contradicted. Note: discretization ≠ quantization. ...
Presentación de PowerPoint
Presentación de PowerPoint

... We study a spin-entangler device for electrons, mediated by Coulomb interaction U via a quantum dot proposed by Oliver et al[1]. The main advantage of this model, compared to others in the literature, is that single particle processes are forbidden. Within this model we calculate two electron transm ...

Wave–particle duality