Quantum Computation and Quantum Information
... Abstract. Quantum computation and quantum information are of great current interest in computer science, mathematics, physical sciences and engineering. They will likely lead to a new wave of technological innovations in communication, computation and cryptography. As the theory of quantum physics i ...
... Abstract. Quantum computation and quantum information are of great current interest in computer science, mathematics, physical sciences and engineering. They will likely lead to a new wave of technological innovations in communication, computation and cryptography. As the theory of quantum physics i ...
INCT_IQ_ENG_1 - Instituto de Física / UFRJ
... Quantum Information School and Workshop, in Paraty, RJ, in 2007. Both of these international events were organized by participants of the Millennium Institute for Quantum Information, and relied on the institute for financial and administrative support. These events, together with the annual review ...
... Quantum Information School and Workshop, in Paraty, RJ, in 2007. Both of these international events were organized by participants of the Millennium Institute for Quantum Information, and relied on the institute for financial and administrative support. These events, together with the annual review ...
Quantum information processing beyond ten ion
... of atoms. In 1926, Schrödinger provided an equation to describe physics at an atomic scale [2] - work for which he received a Nobel prize in 1933. His eponymous equation describes particles and photons, and quantum mechanics in general, in terms of wave phenomena. Here, quantum effects need not only ...
... of atoms. In 1926, Schrödinger provided an equation to describe physics at an atomic scale [2] - work for which he received a Nobel prize in 1933. His eponymous equation describes particles and photons, and quantum mechanics in general, in terms of wave phenomena. Here, quantum effects need not only ...
The Concept of Collision Strength and Its Applications
... Chapter 8. We show that an Arrhenius-like formula[6] is in fact a reaction rate formula based on Thomson’s ionization theory[12]. Therefore Arrhenius’ bimolecular reaction rate theory[2, 13] and Thomson’s ionization theory[12] are unified as one theory. The exponential part of the Arrhenius formula ...
... Chapter 8. We show that an Arrhenius-like formula[6] is in fact a reaction rate formula based on Thomson’s ionization theory[12]. Therefore Arrhenius’ bimolecular reaction rate theory[2, 13] and Thomson’s ionization theory[12] are unified as one theory. The exponential part of the Arrhenius formula ...
Correlations in multipartite systems: From entanglement to localization Julia Stasi ´nska
... This thesis deals with the study of multipartite correlations in various physical systems such as atomic ensembles of non-interacting atoms, systems of interacting spins and disordered Bose gas in an optical lattice. In each case I emphasize a different aspect of this broad concept. First, I concent ...
... This thesis deals with the study of multipartite correlations in various physical systems such as atomic ensembles of non-interacting atoms, systems of interacting spins and disordered Bose gas in an optical lattice. In each case I emphasize a different aspect of this broad concept. First, I concent ...
I. Course Title Advanced Placement Physics C: Mechanics and
... The AP Physics C course at TJ is actually two distinct, one-semester courses. These two courses at TJ are intended to be the equivalent of the first two semesters of the university sequence in physics for scientists’ or engineers. The three-semester or two-year sequence of lower-division physics cou ...
... The AP Physics C course at TJ is actually two distinct, one-semester courses. These two courses at TJ are intended to be the equivalent of the first two semesters of the university sequence in physics for scientists’ or engineers. The three-semester or two-year sequence of lower-division physics cou ...
Relativistic effects in atomic and molecular properties
... Until the seventies of the 20th century it was generally accepted that for a description of the electronic structure of atoms and molecules and, therefore, for the whole chemistry and for the substantial part of physics, relativistic theory is not needed. According to Sheldon L. Glashow [1], Nobel P ...
... Until the seventies of the 20th century it was generally accepted that for a description of the electronic structure of atoms and molecules and, therefore, for the whole chemistry and for the substantial part of physics, relativistic theory is not needed. According to Sheldon L. Glashow [1], Nobel P ...
practical volume holography - Workspace
... grating model, which shows the features common to all periodic structures. We then introduce the volume grating, and discuss its advantages. Because the ideas involved are so important, we spend some time in Section 1.3 reviewing three early examples of volume diffraction from naturally-occurring th ...
... grating model, which shows the features common to all periodic structures. We then introduce the volume grating, and discuss its advantages. Because the ideas involved are so important, we spend some time in Section 1.3 reviewing three early examples of volume diffraction from naturally-occurring th ...
Theory of ultracold atomic Fermi gases
... Kosterlitz-Thouless phase transition in 2D configurations 共Hadzibabic et al., 2006; Schweikhard et al., 2007兲. On the theoretical side, the first efforts were devoted to implementing the Gross-Pitaevskii theory of weakly interacting Bose gases in the presence of the trapping conditions of experiment ...
... Kosterlitz-Thouless phase transition in 2D configurations 共Hadzibabic et al., 2006; Schweikhard et al., 2007兲. On the theoretical side, the first efforts were devoted to implementing the Gross-Pitaevskii theory of weakly interacting Bose gases in the presence of the trapping conditions of experiment ...
Optomechanics in the Quantum Regime
... mode of the mechanical motion has been cooled down to temperatures up to a few mK starting from room temperature (see for example [14]). Optomechanical cooling may eventually be used to reach the ground state of mechanical motion [15, 16] and several groups aim at reaching this goal. This is indeed ...
... mode of the mechanical motion has been cooled down to temperatures up to a few mK starting from room temperature (see for example [14]). Optomechanical cooling may eventually be used to reach the ground state of mechanical motion [15, 16] and several groups aim at reaching this goal. This is indeed ...