paper - Center for Ultracold Atoms
... phase space. As a result, for fermions the joint detection rate versus detector separation is expected to exhibit a dip around the null separation. Such a dip for a fermion ensemble must not be confused with the antibunching dip that one can observe with a single particle (boson or fermion) quantum ...
... phase space. As a result, for fermions the joint detection rate versus detector separation is expected to exhibit a dip around the null separation. Such a dip for a fermion ensemble must not be confused with the antibunching dip that one can observe with a single particle (boson or fermion) quantum ...
Concepts and Applications of Effective Field Theories: Flavor
... multiplied by coupling constants gi, which are referred to as Wilson coefficients eral, all ...
... multiplied by coupling constants gi, which are referred to as Wilson coefficients eral, all ...
Experimental Creation and Measurement of Motional Quantum
... sought after in the laboratory since it brings to the forefront issues involving the relationship between quantum and classical physics. Since most theoretical proposals to achieve these goals were put forward in quantum optics, it might seem surprising that some of the rst experiments succeeding i ...
... sought after in the laboratory since it brings to the forefront issues involving the relationship between quantum and classical physics. Since most theoretical proposals to achieve these goals were put forward in quantum optics, it might seem surprising that some of the rst experiments succeeding i ...
Closed-orbit theory for photodetachment in a time-dependent electric field Robicheaux
... treatments assumed the applied field varied slowly enough so that the electron was driven by a constant electric field during each detachment event, which approximately corresponds to ...
... treatments assumed the applied field varied slowly enough so that the electron was driven by a constant electric field during each detachment event, which approximately corresponds to ...
Simulation of Quantum Gates on a Novel GPU Architecture
... This work focuses on the parallel simulation of a U ⊗n operator applied to a n qubits register, based on an 1-qubit elementary transformation U . As forementioned, our simulation model (Fig. 1) involves a classical computation (code running on the host), and a quantum computation which is just simul ...
... This work focuses on the parallel simulation of a U ⊗n operator applied to a n qubits register, based on an 1-qubit elementary transformation U . As forementioned, our simulation model (Fig. 1) involves a classical computation (code running on the host), and a quantum computation which is just simul ...
II: Experimental Atomic Spectroscopy
... optical spectrograph. The wavelengths of some of these lines are listed in Appendix I to this Experiment. The transition from j=3 to i=2 is the line, j=4 to i=2 is etc. The Bohr model assumes that electrons move in well-defined orbits. It has been observed, however, that the electron does not ob ...
... optical spectrograph. The wavelengths of some of these lines are listed in Appendix I to this Experiment. The transition from j=3 to i=2 is the line, j=4 to i=2 is etc. The Bohr model assumes that electrons move in well-defined orbits. It has been observed, however, that the electron does not ob ...
Contradiction within Paraxial Wave Optics and its - LAS
... photon is only valid if the phase fronts are represented by real mirrors, since otherwise no real force is exerted on the photon. Concerning this objection two arguments can be indicated. First, the properties of a propagating wave are not changed, if it is assumed that this wave is bouncing between ...
... photon is only valid if the phase fronts are represented by real mirrors, since otherwise no real force is exerted on the photon. Concerning this objection two arguments can be indicated. First, the properties of a propagating wave are not changed, if it is assumed that this wave is bouncing between ...
Lecture Notes
... modulation, the maximum efficiency is 58 percent. The above derivation is completely valid, even when there is electron overtaking. The small-signal approximation used to formulate the expressions used in launching the velocity modulated beam into the drift space is not used beyond the buncher in ar ...
... modulation, the maximum efficiency is 58 percent. The above derivation is completely valid, even when there is electron overtaking. The small-signal approximation used to formulate the expressions used in launching the velocity modulated beam into the drift space is not used beyond the buncher in ar ...
Temporal interferences driven by a single-cycle terahertz pulse in the... dynamics of negative ions
... interferences caused by a single-cycle pulse. The present idea of applying a single-cycle THz pulse in the photodetachment process originates from traditional photodetachment microscopy which has been and is still the most accurate instrument for measuring the atomic affinity. In photodetachment mic ...
... interferences caused by a single-cycle pulse. The present idea of applying a single-cycle THz pulse in the photodetachment process originates from traditional photodetachment microscopy which has been and is still the most accurate instrument for measuring the atomic affinity. In photodetachment mic ...
Classical limit and quantum logic - Philsci
... located in space an time, and can be manipulated by classical means. However, when connected to a circuit, well-known quantum effects of our interest take place on it; for example, consider the tunnel effect of the electrons inside it. This means that a transistor is an object such that some of its ...
... located in space an time, and can be manipulated by classical means. However, when connected to a circuit, well-known quantum effects of our interest take place on it; for example, consider the tunnel effect of the electrons inside it. This means that a transistor is an object such that some of its ...
Quantum electrodynamics
In particle physics, quantum electrodynamics (QED) is the relativistic quantum field theory of electrodynamics. In essence, it describes how light and matter interact and is the first theory where full agreement between quantum mechanics and special relativity is achieved. QED mathematically describes all phenomena involving electrically charged particles interacting by means of exchange of photons and represents the quantum counterpart of classical electromagnetism giving a complete account of matter and light interaction.In technical terms, QED can be described as a perturbation theory of the electromagnetic quantum vacuum. Richard Feynman called it ""the jewel of physics"" for its extremely accurate predictions of quantities like the anomalous magnetic moment of the electron and the Lamb shift of the energy levels of hydrogen.