ppt of slides
... Atom Laser : Laser that emits atoms rather than photons. Atoms that can be collimated to travel long distance or brought to a tiny focus. In BEC all atoms have same energy, same de Broglie wavelength, same phase and is described by the same wave function. BEC therefore can be highly monochromatic s ...
... Atom Laser : Laser that emits atoms rather than photons. Atoms that can be collimated to travel long distance or brought to a tiny focus. In BEC all atoms have same energy, same de Broglie wavelength, same phase and is described by the same wave function. BEC therefore can be highly monochromatic s ...
Path integral Monte Carlo study of the interacting quantum double-well... Quantum phase transition and phase diagram
... PIMC simulation and has a maximum at V0 = 1. This behavior of Jc can be understood as follows: In the region V0 Ⰷ 1 the potential has two deep minima separated by a barrier V0 giving rise to a nearly degenerated ground-state doublet that is well separated from the rest of the spectrum, as shown in t ...
... PIMC simulation and has a maximum at V0 = 1. This behavior of Jc can be understood as follows: In the region V0 Ⰷ 1 the potential has two deep minima separated by a barrier V0 giving rise to a nearly degenerated ground-state doublet that is well separated from the rest of the spectrum, as shown in t ...
Unit_4_AP_Review_Problems_Momentum,_Work,_Power,_Energy
... 5. Is it possible for an object to obtain a larger impulse from a smaller force than it does from a larger force? Explain. 6. A white cue ball moves across a pool table at 3m/s and collides head-on with a stationary 8-ball. The two balls have equal mass. After the collision the white cue ball is at ...
... 5. Is it possible for an object to obtain a larger impulse from a smaller force than it does from a larger force? Explain. 6. A white cue ball moves across a pool table at 3m/s and collides head-on with a stationary 8-ball. The two balls have equal mass. After the collision the white cue ball is at ...
glossery - Paradigm Shift Now
... Dissipative Structures23: Ilya Prigogine, a Nobel Laureate in thermodynamics, coined the phrase as a name for the patterns which self-organize; i.e. “stabilize” in far-from-equilibrium dissipative systems. Scientists call something dissipative if it looses energy to waste-heat. The Second Law of The ...
... Dissipative Structures23: Ilya Prigogine, a Nobel Laureate in thermodynamics, coined the phrase as a name for the patterns which self-organize; i.e. “stabilize” in far-from-equilibrium dissipative systems. Scientists call something dissipative if it looses energy to waste-heat. The Second Law of The ...
Holonomic quantum computation with neutral atoms
... quantum gates. On the other hand, ever since the discovery of the Berry’s phase, it has been recognized that quantum evolutions, besides dynamical contributions can display purely geometrical effects [2]. The latter, in view of their very geometric-topological nature, show an inherent stability again ...
... quantum gates. On the other hand, ever since the discovery of the Berry’s phase, it has been recognized that quantum evolutions, besides dynamical contributions can display purely geometrical effects [2]. The latter, in view of their very geometric-topological nature, show an inherent stability again ...
Quantum chaos: an introduction
... •Disordered system: pseudo-random on-site potentials in range [-0.5,0.5] with t=1. •Peaks in the spectrum of the ordered system are van Hove singularities; peaks in the spectrum of the disordered system are very different in origin ...
... •Disordered system: pseudo-random on-site potentials in range [-0.5,0.5] with t=1. •Peaks in the spectrum of the ordered system are van Hove singularities; peaks in the spectrum of the disordered system are very different in origin ...
Ch 7 Impulse and Momentum
... other must be equal in magnitude and opposite in direction. Since the forces are of equal magnitude and they act over the same amount of time, the impulse on each object must also be of equal magnitude. Since each object experiences the same magnitude of impulse, the magnitude of the change in momen ...
... other must be equal in magnitude and opposite in direction. Since the forces are of equal magnitude and they act over the same amount of time, the impulse on each object must also be of equal magnitude. Since each object experiences the same magnitude of impulse, the magnitude of the change in momen ...
Kinetic Energy
... • KE depends on speed not v ( here v 2 = v • v = v ) • KE doesn’t depend on which way something is moving or even if it’s changing direction • KE is ALWAYS a positive scalar ...
... • KE depends on speed not v ( here v 2 = v • v = v ) • KE doesn’t depend on which way something is moving or even if it’s changing direction • KE is ALWAYS a positive scalar ...
Radiation Detectors
... Photomultiplier tubes Electrons emitted by the photocathode are attracted to the first dynode and are accelerated to kinetic energies equal to the potential difference between the photocathode and the first dynode When these electrons strike the first dynode, about 5 electrons are ejected from ...
... Photomultiplier tubes Electrons emitted by the photocathode are attracted to the first dynode and are accelerated to kinetic energies equal to the potential difference between the photocathode and the first dynode When these electrons strike the first dynode, about 5 electrons are ejected from ...
ppt
... ii.We need to order them from lowest to highest. iii.We need to fill the levels with electrons. In many cases, for a given number N ordering the levels is simple E1s
... ii.We need to order them from lowest to highest. iii.We need to fill the levels with electrons. In many cases, for a given number N ordering the levels is simple E1s
The past decade has seen a substantial rejuvenation of interest in
... Anderson localization or mesoscopic system theory, where inelastic collision times are conventionally taken to be much larger than all other time scales. One of the most interesting and significant regimes of the systems we shall study is one in which the inelastic scattering and phase coherence tim ...
... Anderson localization or mesoscopic system theory, where inelastic collision times are conventionally taken to be much larger than all other time scales. One of the most interesting and significant regimes of the systems we shall study is one in which the inelastic scattering and phase coherence tim ...
a = Vf - Vi t a = 2d t a = F m
... 2. Define velocity (It’s not just speed!): The rate at which an object changes position; speed in a given direction. 3. Define acceleration: The rate at which an object’s velocity changes. 4. Explain how it is possible two different objects to have identical velocities. Both would be traveling the s ...
... 2. Define velocity (It’s not just speed!): The rate at which an object changes position; speed in a given direction. 3. Define acceleration: The rate at which an object’s velocity changes. 4. Explain how it is possible two different objects to have identical velocities. Both would be traveling the s ...
Momentum - Mindset Learn
... force and the period of time the force is acting on an object: F∆t = ∆p. Thus the unit of measurement of impulse can also be expressed as N∙s. The mass of an object is usually intact and does not change except in an explosion. Therefore, the change in momentum is usually as a result of change in the ...
... force and the period of time the force is acting on an object: F∆t = ∆p. Thus the unit of measurement of impulse can also be expressed as N∙s. The mass of an object is usually intact and does not change except in an explosion. Therefore, the change in momentum is usually as a result of change in the ...
STRUCTURE OF A TURE OF A TURE OF ATOM STRUCTURE OF A
... an electron having 1.988 × 10–19 J of kinetic energy was emitted. Calculate the threshold frequency of this metal. Show that an electron will not be emitted if a photon with a wavelength equal to 600 nm hits the metal surface. 53. When an electric discharge is passed through hydrogen gas, the hydrog ...
... an electron having 1.988 × 10–19 J of kinetic energy was emitted. Calculate the threshold frequency of this metal. Show that an electron will not be emitted if a photon with a wavelength equal to 600 nm hits the metal surface. 53. When an electric discharge is passed through hydrogen gas, the hydrog ...
The Hydrogen Atom: a Review on the Birth of Modern Quantum
... the beginning of a scientific period full of new and revolutionary ideas that opened the way to the new quantum physics, facilitating the work done by Schrodinger and colleagues. ...
... the beginning of a scientific period full of new and revolutionary ideas that opened the way to the new quantum physics, facilitating the work done by Schrodinger and colleagues. ...