Supersymmetric Quantum Mechanics - Uwe
... powerful approximation methods such as SUSY WKB which is more precise than the classical WKB approximation. In 1983 the new concept of shape invariant potentials (SIP) was introduced by Gendenshtein [2]. It is a relation between two partner potentials, which if it is satisfied, tells us that the two ...
... powerful approximation methods such as SUSY WKB which is more precise than the classical WKB approximation. In 1983 the new concept of shape invariant potentials (SIP) was introduced by Gendenshtein [2]. It is a relation between two partner potentials, which if it is satisfied, tells us that the two ...
PHYS 430
... load. In step (d) the one molecule gas is put in contact with a reservoir and expands isothermically to the original volume V. During the expansion the gas draws heat from the reservoir and does work to lift the load. Apparently the device is returned to its initial state and it is ready to perform ...
... load. In step (d) the one molecule gas is put in contact with a reservoir and expands isothermically to the original volume V. During the expansion the gas draws heat from the reservoir and does work to lift the load. Apparently the device is returned to its initial state and it is ready to perform ...
Factorized S-Matrices in Two Dimensions as the Exact
... In Eq. (2.6) SR and S, are two-particle S-matrix elements corresponding to backward scattering (reflection) and forward scattering (transition). It is convenient to picture the situation as the scattering of the N-dimensional plane wave in the system of semipenetrable hypersurfaces xi = .‘cj (for an ...
... In Eq. (2.6) SR and S, are two-particle S-matrix elements corresponding to backward scattering (reflection) and forward scattering (transition). It is convenient to picture the situation as the scattering of the N-dimensional plane wave in the system of semipenetrable hypersurfaces xi = .‘cj (for an ...
Selective field ionization in Li and Rb: Theory and experiment
... that lead to ionization at field F, with nearly randomly varying phases on the different paths; the differing phases essentially guarantee that the interference between different paths will average to zero. In the model of Ref. 关13兴, the phases need to be retained because all of the phase difference ...
... that lead to ionization at field F, with nearly randomly varying phases on the different paths; the differing phases essentially guarantee that the interference between different paths will average to zero. In the model of Ref. 关13兴, the phases need to be retained because all of the phase difference ...
Deformation Quantization and Geometric Quantization of Abelian
... and finally explain why they fit into the framework set up in Chapter 3. Chapter 5 We discuss the basic properties of abelian varieties. As a start we use Kodaira’s Embedding Theorem to give necessary and sufficient conditions on a torus M = V /Λ where V is a complex vector space and Λ a lattice of ...
... and finally explain why they fit into the framework set up in Chapter 3. Chapter 5 We discuss the basic properties of abelian varieties. As a start we use Kodaira’s Embedding Theorem to give necessary and sufficient conditions on a torus M = V /Λ where V is a complex vector space and Λ a lattice of ...
Quantum Mechanics Made Simple: Lecture Notes
... change of color with respect to temperature. It explains the presence of holes and the transport of holes and electrons in electronic devices. Quantum mechanics has played an important role in photonics, quantum electronics, and micro-electronics. But many more emerging technologies require the unde ...
... change of color with respect to temperature. It explains the presence of holes and the transport of holes and electrons in electronic devices. Quantum mechanics has played an important role in photonics, quantum electronics, and micro-electronics. But many more emerging technologies require the unde ...
Coulomb Drag to Measure Electron-Electron Interaction in Bilayer
... lattice but with no other free electrons ...
... lattice but with no other free electrons ...
- Philsci
... scale with the “in” configuration at one end and the “out” configuration at the other. Clearly the cut-off point between those configurations for which the marble counts as being in the box and those for which it does not is vague. Suppose now that we specify a precise version of the classical analo ...
... scale with the “in” configuration at one end and the “out” configuration at the other. Clearly the cut-off point between those configurations for which the marble counts as being in the box and those for which it does not is vague. Suppose now that we specify a precise version of the classical analo ...
Making the universe safe for historians: Time travel and the laws of
... two (or more) wormholes were used, instead of one, an AAC might be able to suppress the effect of recirculating fields on CNGs. (In the Roman spacetime two wormholes, each with synchronous mouths in their own rest frame, move with respect to each other at high speed.) Visser [1994b] argues that trav ...
... two (or more) wormholes were used, instead of one, an AAC might be able to suppress the effect of recirculating fields on CNGs. (In the Roman spacetime two wormholes, each with synchronous mouths in their own rest frame, move with respect to each other at high speed.) Visser [1994b] argues that trav ...
PHYS571: Lecture Notes Modern Atomic Physics
... atomic oscillator is subject to. These perturbations are conventionally attributed to interaction with the “environment” or “reservoir”, which means any very large physical system coupled to a single atom in a weak way over a very wide frequency band. The effect of the atom on each reservoir mode is ...
... atomic oscillator is subject to. These perturbations are conventionally attributed to interaction with the “environment” or “reservoir”, which means any very large physical system coupled to a single atom in a weak way over a very wide frequency band. The effect of the atom on each reservoir mode is ...
Quantum Phases and Topological States in Optical Lattices
... positive. A single particle state with non-zero components on neighboring sites gives a more negative hopping energy. Hence, the hopping term tends to delocalized the single particle wave function in the optical lattice [5]. The second term in the hamiltonian is known as the interaction term which d ...
... positive. A single particle state with non-zero components on neighboring sites gives a more negative hopping energy. Hence, the hopping term tends to delocalized the single particle wave function in the optical lattice [5]. The second term in the hamiltonian is known as the interaction term which d ...