5.3 Atomic Emission Spectra and the Quantum Mechanical Model
... Not just any frequency of light will cause the photoelectric effect. • Red light will not cause potassium to eject electrons, no matter how intense the light. • Yet a very weak yellow light shining on potassium begins the effect. ...
... Not just any frequency of light will cause the photoelectric effect. • Red light will not cause potassium to eject electrons, no matter how intense the light. • Yet a very weak yellow light shining on potassium begins the effect. ...
Anyons and the quantum Hall effect— A pedagogical
... satisfy Schroedinger’s wave equation. And second, these wave functions should satisfy certain symmetry properties with respect to the exchange of identical particles. For fermions the wave function should be anti-symmetric, for bosons it should be symmetric. It is impossible to overrate the importan ...
... satisfy Schroedinger’s wave equation. And second, these wave functions should satisfy certain symmetry properties with respect to the exchange of identical particles. For fermions the wave function should be anti-symmetric, for bosons it should be symmetric. It is impossible to overrate the importan ...
Non-abelian quantum Hall states and fractional charges in one dimension Emma Wikberg
... mapping the two-dimensional system onto a thin torus, where the problem becomes effectively one-dimensional and hopping is suppressed, meaning that the classical electrostatic interaction dominates. The approach assists with a simplified view of ground states and their degeneracies, as well as of th ...
... mapping the two-dimensional system onto a thin torus, where the problem becomes effectively one-dimensional and hopping is suppressed, meaning that the classical electrostatic interaction dominates. The approach assists with a simplified view of ground states and their degeneracies, as well as of th ...
Creating fractional quantum Hall states with atomic clusters
... FIG. 2. (a), (b) Energy levels E (black lines) as a function of the detuning δ, for N = 2 (a) and N = 8 (b) particles of spin F = 1/2, which corresponds to a transfer of one unit of angular momentum per atom. The Raman coupling amplitude is set to = g̃/(2π ). The system is prepared at rest, spin p ...
... FIG. 2. (a), (b) Energy levels E (black lines) as a function of the detuning δ, for N = 2 (a) and N = 8 (b) particles of spin F = 1/2, which corresponds to a transfer of one unit of angular momentum per atom. The Raman coupling amplitude is set to = g̃/(2π ). The system is prepared at rest, spin p ...
Non-abelian quantum Hall states and fractional charges in
... mapping the two-dimensional system onto a thin torus, where the problem becomes effectively one-dimensional and hopping is suppressed, meaning that the classical electrostatic interaction dominates. The approach assists with a simplified view of ground states and their degeneracies, as well as of th ...
... mapping the two-dimensional system onto a thin torus, where the problem becomes effectively one-dimensional and hopping is suppressed, meaning that the classical electrostatic interaction dominates. The approach assists with a simplified view of ground states and their degeneracies, as well as of th ...
Relativistic Description of Two-body Scattering
... process of two fermions, namely, the electron and the proton, which interact electromagnetically by exchanging a single virtual photon, which has a non-zero q 2 [Ron94]. The particles scattered off the target emerge with a new state which contains important information regarding the target particle. ...
... process of two fermions, namely, the electron and the proton, which interact electromagnetically by exchanging a single virtual photon, which has a non-zero q 2 [Ron94]. The particles scattered off the target emerge with a new state which contains important information regarding the target particle. ...
A quantum computing primer for operator theorists
... and experimental issues that must be overcome, and many involve deep mathematical problems. The main goal of this paper is to provide a primer on some of the basic aspects of quantum computing for researchers with interests in operator theory or operator algebras. However, we note that the only prer ...
... and experimental issues that must be overcome, and many involve deep mathematical problems. The main goal of this paper is to provide a primer on some of the basic aspects of quantum computing for researchers with interests in operator theory or operator algebras. However, we note that the only prer ...
A Quantum Version of The Spectral Decomposition Theorem of
... derivation of Planck distribution of black body radiation respectively. Moreover, development of modern physics demonstrated the usefulness of densities to give a description of systems with a large number of freedom degree which have an uncertainty by ignorance. In this section we introduce a brief ...
... derivation of Planck distribution of black body radiation respectively. Moreover, development of modern physics demonstrated the usefulness of densities to give a description of systems with a large number of freedom degree which have an uncertainty by ignorance. In this section we introduce a brief ...
THE ENTROPIC ENERGY DENSITY PROGRESSION PRINCIPLE
... underlying problem, its wave functions, relying on a concept of integer increases in standing wave energies, do not permit prediction of future values, bringing into question the underlying premise of standing waves. This discrepancy however has a cause. When the wave nature of particles was discove ...
... underlying problem, its wave functions, relying on a concept of integer increases in standing wave energies, do not permit prediction of future values, bringing into question the underlying premise of standing waves. This discrepancy however has a cause. When the wave nature of particles was discove ...
Carrier capture into a GaAs quantum well with a separate
... phonon model from the appendix. One sees that in the case of electrons the results of the DC phonon model exceed the results of the bulk phonon model roughly by a factor of one to three. This difference deserves a more detailed discussion as it contradicts the expectation (see p 2078 in [6]) accordi ...
... phonon model from the appendix. One sees that in the case of electrons the results of the DC phonon model exceed the results of the bulk phonon model roughly by a factor of one to three. This difference deserves a more detailed discussion as it contradicts the expectation (see p 2078 in [6]) accordi ...
Interaction-based nonlinear quantum metrology with a cold atomic ensemble
... and atomic spin ensembles, to nonlinear optical processes. This results in an effective Hamiltonian containing nonlinear terms of the form described by the Caves group, and demonstrates a qualitative equivalence of the two schemes. The second approach uses the Maxwell-Bloch equations to describe non ...
... and atomic spin ensembles, to nonlinear optical processes. This results in an effective Hamiltonian containing nonlinear terms of the form described by the Caves group, and demonstrates a qualitative equivalence of the two schemes. The second approach uses the Maxwell-Bloch equations to describe non ...
Quantum Dot Computing Gates
... of the electron is restricted within such a very small regime, energy quantization or momentum quantization is observed and quantum effects become apparent. Therefore the electron states are not continuous but discrete. This phenomenon is known as the size quantization effect. A proposal for QD-base ...
... of the electron is restricted within such a very small regime, energy quantization or momentum quantization is observed and quantum effects become apparent. Therefore the electron states are not continuous but discrete. This phenomenon is known as the size quantization effect. A proposal for QD-base ...
Bohr–Einstein debates
The Bohr–Einstein debates were a series of public disputes about quantum mechanics between Albert Einstein and Niels Bohr. Their debates are remembered because of their importance to the philosophy of science. An account of the debates was written by Bohr in an article titled ""Discussions with Einsteinon Epistemological Problems in Atomic Physics"". Despite their differences of opinion regarding quantum mechanics, Bohr and Einstein had a mutual admiration that was to last the rest of their lives.The debates represent one of the highest points of scientific research in the first half of the twentieth century because it called attention to an element of quantum theory, quantum non-locality, which is absolutely central to our modern understanding of the physical world. The consensus view of professional physicists has been that Bohr proved victorious, and definitively established the fundamental probabilistic character of quantum measurement.