Manipulating and Measuring the Quantum State of Photons and Atoms
... M.W. Mitchell et al., Nature 429, 161 (2004); and cf. P. Walther et al., Nature 429, 158 (2004). ...
... M.W. Mitchell et al., Nature 429, 161 (2004); and cf. P. Walther et al., Nature 429, 158 (2004). ...
Open-System Quantum Simulation with Atoms and Ions
... in quantum optics is called “dark state”. We note that this is a dissipative, albeit deterministic preparation of the state |ψi. On a single-particle level the concept of preparing a pure state by dissipation is well-known from optical pumping of internal electronic states of atoms and laser cooling ...
... in quantum optics is called “dark state”. We note that this is a dissipative, albeit deterministic preparation of the state |ψi. On a single-particle level the concept of preparing a pure state by dissipation is well-known from optical pumping of internal electronic states of atoms and laser cooling ...
1996 Orchestrated Objective Reduction of Quantum Coherence in
... The boundary between the microscopic, quantum world and the macroscopic, classical world remains enigmatic. Behavior of wave-like, quantum-level objects can be satisfactorily described in terms of a deterministic, unitarily evolving process (e.g. state vector evolving according to the Schrödinger eq ...
... The boundary between the microscopic, quantum world and the macroscopic, classical world remains enigmatic. Behavior of wave-like, quantum-level objects can be satisfactorily described in terms of a deterministic, unitarily evolving process (e.g. state vector evolving according to the Schrödinger eq ...
polarized quantum states
... Orbits type 2 : Generating states cos 2,0 sin 0,2 0 for N 2 sin ...
... Orbits type 2 : Generating states cos 2,0 sin 0,2 0 for N 2 sin ...
File
... electrons, they can be defined as "The sets of numerical values which give acceptable solutions to the Schrödinger wave equation for the Hydrogen atom". Perhaps the most important aspect of quantum mechanics is the quantization of observable quantities, since quantum numbers are discrete sets of int ...
... electrons, they can be defined as "The sets of numerical values which give acceptable solutions to the Schrödinger wave equation for the Hydrogen atom". Perhaps the most important aspect of quantum mechanics is the quantization of observable quantities, since quantum numbers are discrete sets of int ...
Universal Quantum Computation with the Exchange Interaction
... So, in principle, the problem has been solved: the Heisenberg interaction alone is universal and can be used for quantum computation. However, a very practical question still remains: how great is the price that must be paid in return for eliminating single-spin operations? In particular, how many a ...
... So, in principle, the problem has been solved: the Heisenberg interaction alone is universal and can be used for quantum computation. However, a very practical question still remains: how great is the price that must be paid in return for eliminating single-spin operations? In particular, how many a ...
Eigenstates of a small Josephson junction coupled to a resonant... W. A. Al-Saidi and D. Stroud
... of n̄, according to Fig. 1, the difference in energy between the ground state energy, and the first excited energy is ⬃0.3U⫽ប . The structure thus corresponds, we believe, to a resonant absorption of a photon by a Cooper pair in the junction—that is, at this value of n̄, Cooper pairs of electrons ...
... of n̄, according to Fig. 1, the difference in energy between the ground state energy, and the first excited energy is ⬃0.3U⫽ប . The structure thus corresponds, we believe, to a resonant absorption of a photon by a Cooper pair in the junction—that is, at this value of n̄, Cooper pairs of electrons ...
Coherent control of macroscopic quantum states in a single
... in the time domain has not been achieved. Such time-domain techniques are necessary to enable applications based on quantum coherent evolution5±7. To investigate the coherent evolution, we applied a sharp voltage pulse to the pulse gate to control energy levels of the charge states and to manipulate ...
... in the time domain has not been achieved. Such time-domain techniques are necessary to enable applications based on quantum coherent evolution5±7. To investigate the coherent evolution, we applied a sharp voltage pulse to the pulse gate to control energy levels of the charge states and to manipulate ...
Quantum Correlations
... information content of the measurements, results in the Classical Correlation curve reproducing the “Quantum Correlation” curve. ...
... information content of the measurements, results in the Classical Correlation curve reproducing the “Quantum Correlation” curve. ...
quantum brownian motion and the third law of thermodynamics
... analysis of chemical and electrochemical reactions at lower temperatures — that at low temperatures there occurs for isothermal processes a perfect correspondence between the enthalpy and the Gibbs free energy. Thereby, the approximate rule hypothesized earlier by Marcelin Berthelot and Julius Thoms ...
... analysis of chemical and electrochemical reactions at lower temperatures — that at low temperatures there occurs for isothermal processes a perfect correspondence between the enthalpy and the Gibbs free energy. Thereby, the approximate rule hypothesized earlier by Marcelin Berthelot and Julius Thoms ...
How to use the Cosmological Schwinger principle for Energy
... Figure 1. From. Abbott et al. [13] shows the relation between Ω g and frequency. Beckwith has derived a way to use two Friedman equations for estimating Entropy [10] Also, by applying a Gaussian bifurcation mapping Beckwith defined the initial degrees of space time freedom up to over 1000 per unit o ...
... Figure 1. From. Abbott et al. [13] shows the relation between Ω g and frequency. Beckwith has derived a way to use two Friedman equations for estimating Entropy [10] Also, by applying a Gaussian bifurcation mapping Beckwith defined the initial degrees of space time freedom up to over 1000 per unit o ...
Physical Composition
... The atoms of MS are the atoms of microphysics, not Democritus. Anyone committed to MS will probably think that the properties of both atoms and macrophysical objects supervene on the features and interrelations of yet smaller particles. My arguments against MS could easily be adapted to undermine a ...
... The atoms of MS are the atoms of microphysics, not Democritus. Anyone committed to MS will probably think that the properties of both atoms and macrophysical objects supervene on the features and interrelations of yet smaller particles. My arguments against MS could easily be adapted to undermine a ...
Homework No. 09 (Spring 2014) PHYS 530A: Quantum Mechanics II
... neutron (n). Electric charge of a nucleon is given by Q = 12 + T3 . The π meson, or pion, has isospin T = 1, and electric charge Q = T3 , so there are three kinds of pions with different electric charge: T3 = 1 (π + ), T3 = 0 (π 0 ), T3 = −1 (π − ). (Refer Table 1.) Consider the system of a nucleon ...
... neutron (n). Electric charge of a nucleon is given by Q = 12 + T3 . The π meson, or pion, has isospin T = 1, and electric charge Q = T3 , so there are three kinds of pions with different electric charge: T3 = 1 (π + ), T3 = 0 (π 0 ), T3 = −1 (π − ). (Refer Table 1.) Consider the system of a nucleon ...