FINAL EXAM - REVIEW PROBLEMS

... (measured from the normal) of incidence? Two slits are 1.42 × 10 -6 m apart. If green light is normally incident, how far apart are the interference maxima for m = 1 and m = 3 (on the same side of center) on a screen 5.00 m away? W ith a substance of unknown index of refraction on top of a glass pla ...

Q QUANTUM COHERENCE PROGRESS

... example, HV〉). A pure state means that the information about how the state was prepared is complete. A state is called mixed if some knowledge is lacking about the details of system preparation. For example, if the apparatus prepares either the ground state 0〉 or the first excited state 1〉 in a r ...

Modeling the response of thin superconductors to applied magnetic

Unipolar Experiments AG KELLY

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... which kept me excited and challenged over the last several years. I have been extremely fortunate to have had Wolfgang Ketterle as a co-advisor. Wolfgang’s skill at simultaneously grasping the nuts and bolts as well as the big picture of a research endeavor has always been a key element for his grou ...

The influence of cavity photons on the transient transport

Auroral streamers: characteristics of associated precipitation

... global rate of magnetic flux circulation in the magnetosphere (Sergeev et al., 2000). Development of the BBFs is difficult to study in situ with a single (or a few closely spaced) spacecraft. Recently, a close relationship between the fast bursty plasma sheet flows (BBFs) and auroral activations was ...

Modeling of Lightning Exposure of Sharp and Blunt Rods

... not go into corona prior to the descent of a downward stepped is limited to 10 kV/m. leader if the maximum ground field For a relative air density of 0.667 (altitude 3288 m) on the other 10 kV/m, the maximum height of a hand, with the same 2-cm rod that does not go into corona prior to stepped leade ...

Circuit QED: Superconducting Qubits Coupled to Microwave Photons

Ding_Muon_TeXtbook_v2.0

Beams, Bursts, Bubbles, and Bullets: Relativistic Outflows in

... galaxies and GRBs. Each chapter will contain a brief introduction to the specifics of the problem addressed in the chapter, while the remainder of this chapter will present a broader introduction of the field of AGNs and GRBs. The reader familiar with these topics can skip directly to x2. ...

Quantum information processing beyond ten ion

... The requirements for a functional quantum computer have been summarised by DiVincenzo [12]: it is imperative to be able to initialise a well-defined quantum register, to manipulate it and be able to retrieve the information before the information is lost. These criteria have originally been suggeste ...

Simulations of Magnetic Reversal Properties in Granular Recording

How do you divide your (two dimensional) time? .1in SLE, CLE, the

... “There are methods and formulae in science, which serve as masterkeys to many apparently different problems. The resources of such things have to be refilled from time to time. In my opinion at the present time we have to develop an art of handling sums over random surfaces. These sums replace the ...

Contents

Electromagnetic properties of single-walled carbon

... Due to their unique properties, single-walled carbon nanotubes (SWNT) are very interesting candidates for the development of new electronic devices. Some of these properties, e. g., a possible transition to a superconducting phase or the existence of ordered magnetic states, are still under investig ...

Simulation of a two-dimensional sheath over a flat insulator

... horizontal location upon entering the sheath.6 The IADs at different locations on the substrate are shown in Fig. 6. The top figure in Fig. 6 shows distributions at four different locations on the conductor side; the corresponding distributions on the insulator side are shown in the bottom figure. A ...

Chaotic reconnection due to fast mixing of vortex-current filaments Yuichi Yatsuyanagi

Statistical Theory of Biaxial Nematic and Cholesteric Phases

... the following conditions: (a) hF00 i > 0; (b) the same order parameters must have the same values in all the ways they are computed; (c) for each configuration at one temperature the order parameters must be as close as possible to the mean value of the order parameters of the previous temperature [ ...

Introductions : - SS Margol College

... and directly proportional to the permittivity of medium. Apart from these, two factors (size and permittivity), the capacity of a conductor also depends on the presence of charged or uncharged conductors in its surrounding. Note: Isolated conductors are not suitable to use as charge storing devices ...

Classical and Quantum Trajectory-based Approaches to Electron

Foundations of nonlinear gyrokinetic theory - Academics

Experimental research on magnetic pulse welding of dissimilar

Fresnel Equations

Superconducting qubits coupled to nanoelectromechanical resonators: An architecture

< 1 ... 7 8 9 10 11 12 13 14 15 ... 661 >

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