The Fourier grid Hamiltonian method for bound state eigenvalues and eigenfunctions c.
... We consider a single particle of mass m moving in one linear dimension under the influence of a potential V. The nonrelativistic Hamiltonian operator K may be written as a sum of a kinetic energy and a potential energy operator A ...
... We consider a single particle of mass m moving in one linear dimension under the influence of a potential V. The nonrelativistic Hamiltonian operator K may be written as a sum of a kinetic energy and a potential energy operator A ...
Sample pages 2 PDF
... and n understood as the principal quantum number. From the Bohr model it was also possible to derive scaling laws for the atomic properties in terms of n, which were later verified from the full quantum mechanical treatment of Schrödinger in 1926 [3]. Table 2.1 summarises the scalings of the atomic ...
... and n understood as the principal quantum number. From the Bohr model it was also possible to derive scaling laws for the atomic properties in terms of n, which were later verified from the full quantum mechanical treatment of Schrödinger in 1926 [3]. Table 2.1 summarises the scalings of the atomic ...
Reduced fidelity in topological quantum phase transitions
... replacing the Ginzburg-Landau symmetry-breaking paradigm—have instead borrowed concepts from quantum information theory, in particular those of entanglement entropy 关3兴 and fidelity 关4兴, none of which require the construction of an order parameter. Fidelity measures the similarity between two quantu ...
... replacing the Ginzburg-Landau symmetry-breaking paradigm—have instead borrowed concepts from quantum information theory, in particular those of entanglement entropy 关3兴 and fidelity 关4兴, none of which require the construction of an order parameter. Fidelity measures the similarity between two quantu ...
Two interacting spin particles - Dipartimento di Matematica e Fisica
... eigenfunctions in the two-body particle basis. This representation is quite natural and corresponds to a well-known procedure in the physics of interacting particles. In our dynamical model the structure of eigenfunctions strongly depends on their energy because in the classical limit for low and hi ...
... eigenfunctions in the two-body particle basis. This representation is quite natural and corresponds to a well-known procedure in the physics of interacting particles. In our dynamical model the structure of eigenfunctions strongly depends on their energy because in the classical limit for low and hi ...
quant-ph/0205032 PDF
... The proof goes through under the assumption that the distribution of the instrument variables pertaining to one station is independent of the setting of the other (if this assumption is not made, it is of course possible to reproduce the statistical predictions of quantum mechanics and thereby viola ...
... The proof goes through under the assumption that the distribution of the instrument variables pertaining to one station is independent of the setting of the other (if this assumption is not made, it is of course possible to reproduce the statistical predictions of quantum mechanics and thereby viola ...
Diagonalization vs. Decoherence
... appears to have “classical” (non-quantum) properties and behaves like an ensemble of states (does not appear to exhibit superposition). * •Decoherence occurs through the irreversible interaction of the quantum state with the environment, “leaking” information about the state into the environment, so ...
... appears to have “classical” (non-quantum) properties and behaves like an ensemble of states (does not appear to exhibit superposition). * •Decoherence occurs through the irreversible interaction of the quantum state with the environment, “leaking” information about the state into the environment, so ...
13.11.2014 - Erwin Sitompul
... If we were not able to counteract them, they would stop every moving object and bring every rotating shaft to a halt. About 20% of the gasoline used in a car is needed to counteract friction. On the other hand, if friction were totally absent, we could not get an automobile to go anywhere, and w ...
... If we were not able to counteract them, they would stop every moving object and bring every rotating shaft to a halt. About 20% of the gasoline used in a car is needed to counteract friction. On the other hand, if friction were totally absent, we could not get an automobile to go anywhere, and w ...
Publications
... Locking acquisition of the Virgo gravitational wave detector submitted to Astroparticle Physics (2007) F.Acernese et al. (The Virgo Coll.) In-vacuum optical isolation changes in a Faraday isolator submitted to Opt. Lett. (2007) F.Acernese et al. (The Virgo Coll.) Measurement of the optical parameter ...
... Locking acquisition of the Virgo gravitational wave detector submitted to Astroparticle Physics (2007) F.Acernese et al. (The Virgo Coll.) In-vacuum optical isolation changes in a Faraday isolator submitted to Opt. Lett. (2007) F.Acernese et al. (The Virgo Coll.) Measurement of the optical parameter ...
Turing Machines
... technology in the past five decades, our basic understanding of how a computer functions – or what it can do – has not changed. The tiny components inside all computers today still behave and are understood according to classical physics. ...
... technology in the past five decades, our basic understanding of how a computer functions – or what it can do – has not changed. The tiny components inside all computers today still behave and are understood according to classical physics. ...
Chapter 7, Part I
... Work & Energy Language. • Newton’s Laws with Work & Energy: Very general. In principle, could be used to solve any dynamics problem, But, often (especially in collision problems) it’s more convenient to use still another formulation. • The Ch. 7 formulation uses Momentum & Force as the basic physica ...
... Work & Energy Language. • Newton’s Laws with Work & Energy: Very general. In principle, could be used to solve any dynamics problem, But, often (especially in collision problems) it’s more convenient to use still another formulation. • The Ch. 7 formulation uses Momentum & Force as the basic physica ...
CYC69H07
... experimental verification of some of the calculations mentioned above and to study problems related to central region design. The main data for this small synchrocyclotron is given in Table 1. Maximum proton energy is --l 5 MeV which is sufficient to permit the particles to perform several phase osc ...
... experimental verification of some of the calculations mentioned above and to study problems related to central region design. The main data for this small synchrocyclotron is given in Table 1. Maximum proton energy is --l 5 MeV which is sufficient to permit the particles to perform several phase osc ...
Gold, copper, silver and aluminum nanoantennas to enhance
... method .30,31 Furthermore, we take advantage of the rotational symmetry of the system to reduce the problem to two dimensions, see Fig. 1(b), and we employ the body-of-revolution FDTD approach.26,30 The experimental dielectric function of metals is fitted using Drude or Drude-Lorentz dispersion mode ...
... method .30,31 Furthermore, we take advantage of the rotational symmetry of the system to reduce the problem to two dimensions, see Fig. 1(b), and we employ the body-of-revolution FDTD approach.26,30 The experimental dielectric function of metals is fitted using Drude or Drude-Lorentz dispersion mode ...
MATH TODAY
... Triangle - A triangle consists of three points and the three line segments between them. The three segments are called the sides of the triangle and the three points are called the vertices. ...
... Triangle - A triangle consists of three points and the three line segments between them. The three segments are called the sides of the triangle and the three points are called the vertices. ...
Harmonic Oscillator: Variational Monte Carlo
... Exact solutions have been found only for a very small number of problems which can essentially be reduced to one-dimensional ordinary differential equations. Another example is the hydrogen atom which consists of a proton and an electron interacting through a Coulomb force. ...
... Exact solutions have been found only for a very small number of problems which can essentially be reduced to one-dimensional ordinary differential equations. Another example is the hydrogen atom which consists of a proton and an electron interacting through a Coulomb force. ...