Two-dimensional momentum imaging of Rydberg states using half-cycle pulse ionization
... This phenomenon is not observed in the measurements shown in Figs. 3共a兲 and 3共b兲 reflecting that this strong Coulomb scattering may be a product of the trajectory calculations involving a point charge. Both experimental data and calculations show that the fact that the interaction is not perfectly s ...
... This phenomenon is not observed in the measurements shown in Figs. 3共a兲 and 3共b兲 reflecting that this strong Coulomb scattering may be a product of the trajectory calculations involving a point charge. Both experimental data and calculations show that the fact that the interaction is not perfectly s ...
Physics Today - Portland State University
... That's a product of independent diffraction patterns, so the joint state beyond the beam splitters will be we actually see single-particle fringes on each screen. The condition d <8C A/0 is just the requirement for seeing iexp(-i(a + g)/2) [ s i n ( A / 2 ) | c > | C , >2 + c o s ( A / 2 ) fringes i ...
... That's a product of independent diffraction patterns, so the joint state beyond the beam splitters will be we actually see single-particle fringes on each screen. The condition d <8C A/0 is just the requirement for seeing iexp(-i(a + g)/2) [ s i n ( A / 2 ) | c > | C , >2 + c o s ( A / 2 ) fringes i ...
A strange, elusive phenomenon called supersymmetry was
... upersymmetry is a remarkable symmetry. In elementary particle physics, it interchanges particles of completely dissimilar types— the kind called fermions (such as electrons, protons and neutrons), which make up the material world, and those called bosons (such as photons), which generate the forces ...
... upersymmetry is a remarkable symmetry. In elementary particle physics, it interchanges particles of completely dissimilar types— the kind called fermions (such as electrons, protons and neutrons), which make up the material world, and those called bosons (such as photons), which generate the forces ...
Quantum Strategies V 82, N 5
... strategies can be more successful than classical ones. While this result may seem obscure or surprising, in fact it is neither. Cryptographic situations, for example, are readily conceived as games; it is reasonable to ask if the advantages of quantum key distribution generalize. Game theory, on the ...
... strategies can be more successful than classical ones. While this result may seem obscure or surprising, in fact it is neither. Cryptographic situations, for example, are readily conceived as games; it is reasonable to ask if the advantages of quantum key distribution generalize. Game theory, on the ...
PHYS 1443 – Section 501 Lecture #1
... Theory for Microscopic Scale, Quantum Mechanics • Since we deal with extremely small objects, it is difficult to explain the phenomena with classical mechanics and Electro-magnetism • The study of atomic structure, thus, led us to quantum mechanics Extremely successful – Long range EM force is re ...
... Theory for Microscopic Scale, Quantum Mechanics • Since we deal with extremely small objects, it is difficult to explain the phenomena with classical mechanics and Electro-magnetism • The study of atomic structure, thus, led us to quantum mechanics Extremely successful – Long range EM force is re ...
Quantum rings for beginners: energy spectra and persistent currents
... rings, on one hand, and the recent experimental developments in manufacturing quantum dots [3] and rings [4] with only a few electrons, on the other, have made quantum rings an ever increasing topic of experimental research and a new playground for many-particle theory in quasi-one-dimensional syste ...
... rings, on one hand, and the recent experimental developments in manufacturing quantum dots [3] and rings [4] with only a few electrons, on the other, have made quantum rings an ever increasing topic of experimental research and a new playground for many-particle theory in quasi-one-dimensional syste ...
Quantum Monte Carlo Methods Chapter 14
... ! . Equation (14.4) is solved using techniques from Monte Carlo integrashould approach ⟨H⟩ tion, see the discussion below. For most Hamiltonians, H is a sum of kinetic energy, involving a second derivative, and a momentum independent and spatial dependent potential. The contribution from the potenti ...
... ! . Equation (14.4) is solved using techniques from Monte Carlo integrashould approach ⟨H⟩ tion, see the discussion below. For most Hamiltonians, H is a sum of kinetic energy, involving a second derivative, and a momentum independent and spatial dependent potential. The contribution from the potenti ...
Evolution of a vortex in a magnetic field
... The order of magnitude of the viscous dissipation term, ε, in the energy equation (14) can also be estimated for the non-linear decay phase. This is necessary because the vortex can be turbulent and could contain an energy cascade, leading to significant viscous dissipation. In conventional turbulen ...
... The order of magnitude of the viscous dissipation term, ε, in the energy equation (14) can also be estimated for the non-linear decay phase. This is necessary because the vortex can be turbulent and could contain an energy cascade, leading to significant viscous dissipation. In conventional turbulen ...
