Optimal quantum cloning of orbital angular momentum photon
... from the imperfect generation and detection efficiency, by reducing the total number of photons needed in a given process. Qudit-based quantum information protocols may also offer better theoretical performances than their qubit equivalents11,12 , while the combined use of different degrees of freedom o ...
... from the imperfect generation and detection efficiency, by reducing the total number of photons needed in a given process. Qudit-based quantum information protocols may also offer better theoretical performances than their qubit equivalents11,12 , while the combined use of different degrees of freedom o ...
Particle Physics what do we know?
... • What are the fundamental building blocks of the universe? • What are the interactions between them? • How can we explain the universe? – its history – its present form – its future ...
... • What are the fundamental building blocks of the universe? • What are the interactions between them? • How can we explain the universe? – its history – its present form – its future ...
Quantum interference with molecules: The role of
... can, in fact, contribute to washing out an interference pattern, but only in certain parameter regimes. We shall examine two ways in which this can happen. The first is a result of the fact that after the scattering, different internal states of the molecule have different wave vectors describing th ...
... can, in fact, contribute to washing out an interference pattern, but only in certain parameter regimes. We shall examine two ways in which this can happen. The first is a result of the fact that after the scattering, different internal states of the molecule have different wave vectors describing th ...
On the interpretation of measurement in quantum theory
... "reduction of the wave function." As the "other" component cannot be observed any more, it serves only to save the consistency of quantum theory. Omitting this component is justified pragmatically, but leads to the discrepancies discussed above. This interpretation, corresponding to a "localization ...
... "reduction of the wave function." As the "other" component cannot be observed any more, it serves only to save the consistency of quantum theory. Omitting this component is justified pragmatically, but leads to the discrepancies discussed above. This interpretation, corresponding to a "localization ...
A DERIVATION OF NEWTON`S LAW OF GRAVITATION FROM
... Newton’s Law of Gravitation was obtained from Kepler’s Laws using macroscopic phenomena. Since the forces due to the mesonic charges of Yukawa are very weak when compared to electromagnetic forces for large distances, they seem unlikely to contribute to the gravitational attraction between bodies of ...
... Newton’s Law of Gravitation was obtained from Kepler’s Laws using macroscopic phenomena. Since the forces due to the mesonic charges of Yukawa are very weak when compared to electromagnetic forces for large distances, they seem unlikely to contribute to the gravitational attraction between bodies of ...
Quantum interference in the classically forbidden region: A parametric oscillator
... are periodic in time and the systems lack detailed balance. Experimentally, classical transition rates have been studied for such diverse vibrational systems as modulated trapped electrons 关1兴, Josephson junctions 关2兴, nano- and micromechanical oscillators 关3–5兴, and trapped atoms 关6兴, and the resul ...
... are periodic in time and the systems lack detailed balance. Experimentally, classical transition rates have been studied for such diverse vibrational systems as modulated trapped electrons 关1兴, Josephson junctions 关2兴, nano- and micromechanical oscillators 关3–5兴, and trapped atoms 关6兴, and the resul ...
Document
... This is because U (x) is zero inside the well. IncreasingU (x) to infinity as the width is reduced to zero, we have the idealization of an infinite potential square well. ...
... This is because U (x) is zero inside the well. IncreasingU (x) to infinity as the width is reduced to zero, we have the idealization of an infinite potential square well. ...
06_chapter 1
... When the electrons in a plasma are displaced from their equilibrium positions, strong el eerie fields are set ...
... When the electrons in a plasma are displaced from their equilibrium positions, strong el eerie fields are set ...
Field theory of the spinning electron: About the new non
... seventy years(1) . For instance, Schrödinger’s suggestion(2) that the electron spin was related to zitterbewegung did originate a large amount of subsequent work, including Pauli’s. Let us quote, among the others, ref.(3) , where one meets even the proposal of models with clockwise and anti-clockwi ...
... seventy years(1) . For instance, Schrödinger’s suggestion(2) that the electron spin was related to zitterbewegung did originate a large amount of subsequent work, including Pauli’s. Let us quote, among the others, ref.(3) , where one meets even the proposal of models with clockwise and anti-clockwi ...
Quantum Information and Quantum Computation
... Over the last half century, the components of computers have gotten smaller by a factor of two every year and a half, the phenomenon known as Moore's law. In current computers, the smallest wires and transistors are coming close to a size of one hundred nanometers across, a thousand times the diamet ...
... Over the last half century, the components of computers have gotten smaller by a factor of two every year and a half, the phenomenon known as Moore's law. In current computers, the smallest wires and transistors are coming close to a size of one hundred nanometers across, a thousand times the diamet ...
Slides - Particle Physics
... A strong measurement depends on Dp being smaller than the spacing of the an making each Gaussian narrow and non-overlapping. May 2015 ...
... A strong measurement depends on Dp being smaller than the spacing of the an making each Gaussian narrow and non-overlapping. May 2015 ...
The Schrödinger Wave Equation
... wave functions within the quantum theory. But the problem here, as has been pointed out before in Chapter 5, is that Ψ(x, t) does not vanish as x → ±∞, so the normalization condition, Eq. (6.14) cannot be satisfied. So what is going on here? The answer lies in the fact that there are two kinds of wa ...
... wave functions within the quantum theory. But the problem here, as has been pointed out before in Chapter 5, is that Ψ(x, t) does not vanish as x → ±∞, so the normalization condition, Eq. (6.14) cannot be satisfied. So what is going on here? The answer lies in the fact that there are two kinds of wa ...
