Quantum Aspects of Resolving Discrete Charges
... The resolution of individual charges within an ‘atomistic’ simulation [1–3] using a fine mesh creates problems [4]. Due to the use of Boltzmann or FermiDirac statistics in classical drift-diffusion simulations the electron concentration follows the electrostatic potential, gained from the solution o ...
... The resolution of individual charges within an ‘atomistic’ simulation [1–3] using a fine mesh creates problems [4]. Due to the use of Boltzmann or FermiDirac statistics in classical drift-diffusion simulations the electron concentration follows the electrostatic potential, gained from the solution o ...
DEPARTMENT OF PHYSICS Course Title Statistical Physics and
... The central force, The two body problem ...
... The central force, The two body problem ...
msc6 - Redbrick
... Both U and V now share a session key for further transmission of data. The messages M and N are used to provide secrecy in the transmission of the session key K. On the other hand A and B are used to provide Key Confirmation, that is to enable U and V to convince one another that they do indeed sha ...
... Both U and V now share a session key for further transmission of data. The messages M and N are used to provide secrecy in the transmission of the session key K. On the other hand A and B are used to provide Key Confirmation, that is to enable U and V to convince one another that they do indeed sha ...
Paper
... nonlinear Schrödinger equation @15#. Thus the validity of this equation and of the ‘‘standard’’ mean-field expression for the condensate is based on the assumption that g (2) (0)51, i.e., that density fluctuations are absent. Thermal density fluctuations are characterized by g (2) (0)52, as recentl ...
... nonlinear Schrödinger equation @15#. Thus the validity of this equation and of the ‘‘standard’’ mean-field expression for the condensate is based on the assumption that g (2) (0)51, i.e., that density fluctuations are absent. Thermal density fluctuations are characterized by g (2) (0)52, as recentl ...
Why is there an invariant speed c?
... Although motion is discontinuous and random, the discontinuity and randomness are absorbed into the motion state (defined during an infinitesimal time interval) in continuous space and time. We see no randomness and discontinuity in the state of RDM and its evolution law; the wave function is contin ...
... Although motion is discontinuous and random, the discontinuity and randomness are absorbed into the motion state (defined during an infinitesimal time interval) in continuous space and time. We see no randomness and discontinuity in the state of RDM and its evolution law; the wave function is contin ...
Deconfined Quantum Critical Points
... condensed matter theory. A central concept in this theory is that of the ”order parameter”; its nonzero expectation value characterizes a broken symmetry of the Hamiltonian in an ordered phase and it goes to zero when the symmetry is restored in the disordered phase. According to the accepted paradi ...
... condensed matter theory. A central concept in this theory is that of the ”order parameter”; its nonzero expectation value characterizes a broken symmetry of the Hamiltonian in an ordered phase and it goes to zero when the symmetry is restored in the disordered phase. According to the accepted paradi ...
14. Applications of Free-Space Optical Communications
... In the other direction HAPs might be used as relay stations above the clouds for optical downlinks from Earth Observation (EO) satellites [2][3]. In this scenario the link from the satellite to the HAP would be achieved by optical means. For the last 20 - 60 km to the ground, a microwave or a hybrid ...
... In the other direction HAPs might be used as relay stations above the clouds for optical downlinks from Earth Observation (EO) satellites [2][3]. In this scenario the link from the satellite to the HAP would be achieved by optical means. For the last 20 - 60 km to the ground, a microwave or a hybrid ...
Anti Heisenberg – Refutation of Heisenberg`s Uncertainty Principle
... theory in the history of mankind. But it is also a theory which violates some fundamental principles of modern science too, in particular the principle of causality. Heisenberg's uncertainty principle [1], as one of the most important and famous aspects of quantum mechanics, is the striking aspect o ...
... theory in the history of mankind. But it is also a theory which violates some fundamental principles of modern science too, in particular the principle of causality. Heisenberg's uncertainty principle [1], as one of the most important and famous aspects of quantum mechanics, is the striking aspect o ...
Old and New Paradigms for the Science of Human Behavior
... It seems requisite that biological (chnopsological) verbal ad hoc explanations of evolution be replaced or at least supplemented by chemical predictions. Furthermore, there exist more parsimonious methods to analyze behavior, than coming up with an ad hoc explanation of why this mate was preferred. ...
... It seems requisite that biological (chnopsological) verbal ad hoc explanations of evolution be replaced or at least supplemented by chemical predictions. Furthermore, there exist more parsimonious methods to analyze behavior, than coming up with an ad hoc explanation of why this mate was preferred. ...
Theoretical Considerations and Experimental Probes of the
... particle-hole symmetric. Since the Pf and APf states are particle -hole conjugates of each other, they must have identical energies in this model. Degeneracy can be broken by inter-Landau level mixing, effects of impurities, sample boundaries, and deviations from half filling. Sample boundaries may ...
... particle-hole symmetric. Since the Pf and APf states are particle -hole conjugates of each other, they must have identical energies in this model. Degeneracy can be broken by inter-Landau level mixing, effects of impurities, sample boundaries, and deviations from half filling. Sample boundaries may ...
Cooling and Trapping Neutral Atoms
... Bose-Einstein condensation of atoms was achieved in 1995 and had a major impact of atomic physics. New techniques were developed to prepare atomic samples at nanokelvin temperature, to control their properties and to diagnose them with a variety of powerful techniques. Since then, the field has dram ...
... Bose-Einstein condensation of atoms was achieved in 1995 and had a major impact of atomic physics. New techniques were developed to prepare atomic samples at nanokelvin temperature, to control their properties and to diagnose them with a variety of powerful techniques. Since then, the field has dram ...
