Magnet - Ms. Gamm

New Approaches in Deep Laser Cooling of Magnesium Atoms for

Phys. Rev. Lett. 101, 043002 (2008)

... allowing tunneling concepts to be applied. On the other hand, < 1 is usually spoken of as tunneling, whereas Fig. 3 shows that as small as O101 may be out of the reach of a tunneling theory. This raises the subject of the interpretation [1] of as the ratio of the time required to tunnel th ...

80, 030202(R) (2009)

... entanglement operations. Finally, we show how spatially resolved detection of each state can be implemented. We first address the question of how to trap one atom on demand in the ground state of a trap. While this step has not yet been demonstrated experimentally, progress has been made for bosonic ...

chpater 24 English

... electric flux through the plane due to the point charge. (b) A point charge q is located a very small distance from the center of a very large square on the line perpendicular to the square and going through its center. Determine the approximate electric flux through the square due to the point char ...

Chapter 21: Electric Charge and Electric Field

Tutorial 1 Sept. 22 - McMaster University > ECE

... the system has undergone the Γ − X transition and the barrier height, both for the central and border barriers, has substantially decrease becoming a bulk-like structure. For zero field the absorption edge shift is larger than for the other pressure values, the same trend occurs for the applied fiel ...

Lecture Notes

Mhd flow and heat transfer of two immiscible fluids between moving

Document

... “It was quite the most incredible event that ever happened to me in my life. It was almost as incredible as if you had fired a 15-inch shell at a piece of tissue paper and it came back and hit you.” ...

12 Electrostatic Phenomena Suggestions for presentation Answers

Electric flux

... • Gauss’ law is more general than Coulomb’s law. – Can be used to obtain electric field, forces, or charges Gauss’ Law: Any differences between the input and output flux of the electric field over any enclosed surface is due to the charge within that surface!!! ...

Wednesday, Apr. 11, 2012

A DERIVATION OF NEWTON`S LAW OF GRAVITATION FROM

... Newton’s Law of Gravitation was obtained from Kepler’s Laws using macroscopic phenomena. Since the forces due to the mesonic charges of Yukawa are very weak when compared to electromagnetic forces for large distances, they seem unlikely to contribute to the gravitational attraction between bodies of ...

On Electrodynamical Self-interaction

Final CR Notebook

... original cathode ray experiment, and uses the same basic setup albeit with improved technology and methods. Two crucial factors distinguished Thomsons experiment from similar attempts by other researchers of the time; the first was Thomson’s use of an evacuated tube that allowed electrons to be easi ...

From Fractional Quantum Hall Effect To Fractional Chern Insulator

***** 1 - CERN Indico

Tunneling spectroscopy of hole plasmons in a valence

Midterm Exam Faraday`s Law Lenz`s Law

Forces - damtp

... are very beautiful mathematical objects, being doubly periodic in the complex plane: they satisfy a relation of the form F (z + ma + nb) = F (z), where z is any complex number (actually, almost any, since elliptic functions generally have singularities), a and b are fixed complex numbers, and m and ...

MC2521062109

... Fig.5 Mass Mechanism of the Higgs Field Each elementary particle acquires its unique set of attributes by interacting with invisible entities called fields. One such field is the electromagnetic field. Each particle interacts with the electromagnetic field in a way that depends on its electric charg ...

Chapter 4 Experiment 2: Equipotentials and Electric Fields

... difference (work per unit charge) measured in Volts (V). When it is connected to the two conductors, a small amount of charge is deposited on each conductor, producing an electric field and maintaining a potential difference, identical to that of the power supply, between the two conductors. The bla ...

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Aharonov–Bohm effect

The Aharonov–Bohm effect, sometimes called the Ehrenberg–Siday–Aharonov–Bohm effect, is a quantum mechanical phenomenon in which an electrically charged particle is affected by an electromagnetic field (E, B), despite being confined to a region in which both the magnetic field B and electric field E are zero. The underlying mechanism is the coupling of the electromagnetic potential with the complex phase of a charged particle's wavefunction, and the Aharonov–Bohm effect is accordingly illustrated by interference experiments.The most commonly described case, sometimes called the Aharonov–Bohm solenoid effect, takes place when the wave function of a charged particle passing around a long solenoid experiences a phase shift as a result of the enclosed magnetic field, despite the magnetic field being negligible in the region through which the particle passes and the particle's wavefunction being negligible inside the solenoid. This phase shift has been observed experimentally. There are also magnetic Aharonov–Bohm effects on bound energies and scattering cross sections, but these cases have not been experimentally tested. An electric Aharonov–Bohm phenomenon was also predicted, in which a charged particle is affected by regions with different electrical potentials but zero electric field, but this has no experimental confirmation yet. A separate ""molecular"" Aharonov–Bohm effect was proposed for nuclear motion in multiply connected regions, but this has been argued to be a different kind of geometric phase as it is ""neither nonlocal nor topological"", depending only on local quantities along the nuclear path.Werner Ehrenberg and Raymond E. Siday first predicted the effect in 1949, and similar effects were later published by Yakir Aharonov and David Bohm in 1959. After publication of the 1959 paper, Bohm was informed of Ehrenberg and Siday's work, which was acknowledged and credited in Bohm and Aharonov's subsequent 1961 paper.Subsequently, the effect was confirmed experimentally by several authors; a general review can be found in Peshkin and Tonomura (1989).

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Aharonov–Bohm effect