Landau Levels and Quantum Group
Landau Levels and Quantum Group

... theories and integrable lattice models [4]. Although the abelian ChernSimons theory does not possess a quantum group structure in the literature [3], it might be possible to exhibit one in some other senses. There have been also interesting investigations of condensed matter problems such as the fra ...
PH301
PH301

... well potential. Let’s make it do a more complicated example: the harmonic oscillator. To do this, choose “Well Parameters” from the “Parameters” menu. Select “User Defined Well,” and define the well as V(x)=150*x^2 (like a spring: V=1/2 kx2) with a domain from -1 to 1. Click OK. Press F3 to begin th ...
Classical harmonic oscillator with quantum energy spectrum
Classical harmonic oscillator with quantum energy spectrum

... N. Bohr first attempted to answer these questions in his semi-classical theory of hydrogen-like atoms [1]. Bohr postulated, that atoms have discrete stationary energy levels, being on which, accelerated electron, in contradiction with classical electrodynamics, does not radiate the electromagnetic w ...
Mathematical physics - Institute of Physics
Mathematical physics - Institute of Physics

... the degree of entanglement of a large quantum system indicates how many particles need to be considered: the smaller the entanglement entropy the fewer the particles that are needed to simulate the system numerically. There are hopes to test the predictions of entanglement entropy experimentally in ...
Chapter 7 The Collapse of the Wave Function
Chapter 7 The Collapse of the Wave Function

... So how do you know what to do? Does the state vector collapse, or doesn’t it? How do you know if you’ve made a measurement? The mathematics of quantum mechanics are clear. Despite the interpretational difficulty, it’s very important to realize that the predictive power of quantum mechanics is strong ...
Nuclear Physics
Nuclear Physics

Reciprocal Symmetric Kinematics and Correspondence between
Reciprocal Symmetric Kinematics and Correspondence between

Creation of multiple electron-positron pairs in arbitrary fields
Creation of multiple electron-positron pairs in arbitrary fields

... process, the observed positrons were created in the electronlaser interaction but an observation of a single electronpositron pair triggered directly from a laser field without supplied heavy ion or electron beams has not been reported yet. Recently, these laser systems have pushed the frontier inte ...
Pearson Education - Pearson Schools and FE Colleges
Pearson Education - Pearson Schools and FE Colleges

... One method oil companies use when prospecting for suitable sites to drill oil wells is to measure g very accurately. To do this they use a gravimeter, which accurately times a ball falling in a vacuum. Attraction to the Earth is more dependent on the ground just beneath your feet than on matter furt ...
Quantum Information
Quantum Information

The Bohr Model
The Bohr Model

... Orbitals with the same value of n form a shell. Different orbital types within a shell are subshells. n                   subshell                  # of orbitals          total #             total #                                                                                      of orbitals   of ...
Infrared spectroscopy of acetylene
Infrared spectroscopy of acetylene

... Molecules form an interesting bridge between larger, classical objects and smaller systems such as atoms. Because of their size and structure, we can observe motions we have a classically intuitive notion of in the quantum regime. In particular we’ll get some insight into rotational and vibrational ...
Pulse-train control of photofragmentation at constant field energy
Pulse-train control of photofragmentation at constant field energy

... over all energies E in the excited electronic state (measured relative to the energy of the initial state). In this limit, according to Eq. (2), only the frequency distribution of the laser field is reflected in the excitation probability, i.e., via |A(ω)|2 , where ω = E/¯. A short laser pulse gener ...
atom-ph/9606004 PDF
atom-ph/9606004 PDF

... that the state of the condensate is a linear superposition of states with di erent particle number. However, in second quantized formalism of nonrelativistic Quantum Mechanics, as is usually employed to describe BEC, all observables commute with the atomic number operator N^ which thus plays the rol ...
Student choices of models of the atom - OSU Physics
Student choices of models of the atom - OSU Physics

... nearly 1000 undergraduates at the Ohio State University who were taking one of the OSU physics courses. The survey is an attempt to determine student ideas about the nature of reality. We used the concept of the photon as a common thread to probe students’ understanding of a wide range of topics in ...
Review Packet Honors Chemistry Kovacs
Review Packet Honors Chemistry Kovacs

... _____1. Which of the following describes nuclear fusion? a. 2 small atoms form one big atom d. A Molecule breaks a bond, forming 2 atoms b. 2 atoms form a chemical bond to form a molecule e. all of them c. One big atom breaks into 2 smaller atoms F. Just A,B, and C _____2. Which of the following is ...
Measurement of Quantum Fluctuations in Geometry
Measurement of Quantum Fluctuations in Geometry

quantum teleportation
quantum teleportation

... early 20th century. In the 1920’s Einstein was finding faults with quantum mechanics. At first Bohr could answer all of Einstein’s questions, but in 1935 this changed. In this year Einstein, together with his coworkers Podolsky and Rosen, published a paper (12) on a paradox concerning quantum mechan ...
Photon pairs with coherence time exceeding 1 μs
Photon pairs with coherence time exceeding 1 μs

... longitudinal length L  1.5 cm and a temperature of 100 μK. The experiment is run periodically with 4.5 ms MOT time followed by 0.5 ms biphoton generation time in each cycle. At end of the MOT time, the trapping and repumping lasers (not shown in Fig. 1) are switched off and all the atoms are optica ...
Why the Glove of Mathematics Fits the Hand of the Natural Sciences
Why the Glove of Mathematics Fits the Hand of the Natural Sciences

1 Linear Response and the Fluctuation-Dissipation Theorem
1 Linear Response and the Fluctuation-Dissipation Theorem

... exact relation between the time-dependent correlation function cAB (t) between two variables A and B and the response function χAB , i.e. between the (thermal, but also quantum) fluctuations of two variables of a system in equilibrium (no external force), and the time-dependent response of variable ...
The physical nature of information
The physical nature of information

... Imperfections in the quantum mechanically coherent computer generate several separate problems. First of all, interaction of the intentional information bearing degrees of freedom with the environment causes decoherence and spoils the quantum mechanical interference between alternative trajectories ...
Anderson transition ???????? Critical Statistics
Anderson transition ???????? Critical Statistics

... are universally described by random matrix theory. With the help of the one parameter scaling theory we propose an alternative characterization of this universality class. It is also identified the universality class associated to the metal-insulator transition. In low dimensions it is characterized ...
Interference-effects in the laser
Interference-effects in the laser

... desorbing NO molecules. This distribution differs drastically from the monomodal distributions one usually gets in any one-dimensional wave packet jumping scenario w25x, as was shown in the previous section. For this reason, the remainder of this paper consists of several simplified model calculatio ...
powerpoint
powerpoint

... Did you ever wonder how thoughts can affect the physical world? Where is meaning in thoughts? These questions are part of the story how metaphysics and quantum physics are interrelated at a pre-physics or proto-physical level, using primarily information concepts. These complex topics are understand ...

Wave–particle duality