Quantum simulations with cold trapped ions
... degrees of freedom can be controlled to a considerable degree by the experimenter. A strong motivation for early experiments with individual trapped ions arose from their potential use as frequency standards (e.g. Dehmelt (1981) and references therein). Today, by using trapped ions as frequency stan ...
... degrees of freedom can be controlled to a considerable degree by the experimenter. A strong motivation for early experiments with individual trapped ions arose from their potential use as frequency standards (e.g. Dehmelt (1981) and references therein). Today, by using trapped ions as frequency stan ...
Superconducting Qubit Storage and Entanglement with Nanomechanical Resonators A. N. Cleland
... apart from expected phase factors. The JJ state has actually been swapped with that of the resonator. The cavity-QED analog of this operation has been demonstrated in Ref. [15]. To assess the limitations of the RWA and examine the feasibility of future experiments, we also solve Eq. (2) numerically, ...
... apart from expected phase factors. The JJ state has actually been swapped with that of the resonator. The cavity-QED analog of this operation has been demonstrated in Ref. [15]. To assess the limitations of the RWA and examine the feasibility of future experiments, we also solve Eq. (2) numerically, ...
The Symplectization of Science - Pacific Institute for the
... Especially interesting are two features of these ’non-Euclidean’ or “Riemannian” geometries: The first is that the geometry can vary considerably from point to point in the space. So triangles at one location might have angles which sum to 200◦ , while another triangle elsewhere might have angles sum ...
... Especially interesting are two features of these ’non-Euclidean’ or “Riemannian” geometries: The first is that the geometry can vary considerably from point to point in the space. So triangles at one location might have angles which sum to 200◦ , while another triangle elsewhere might have angles sum ...
Quantum technology: the second quantum revolution
... matter particles sometimes behaved like waves, and that light waves sometimes acted like particles. This simple idea underlies nearly all of the scienti¯c and technological breakthroughs associated with this ¯rst quantum revolution. Once you realize just how an electron acts like a wave, you now can ...
... matter particles sometimes behaved like waves, and that light waves sometimes acted like particles. This simple idea underlies nearly all of the scienti¯c and technological breakthroughs associated with this ¯rst quantum revolution. Once you realize just how an electron acts like a wave, you now can ...
Resonant Effects in Collisions of Relativistic Electrons in the Field of
... emission or one-photon creation and annihilation of electron–positron pairs, that may be allowed in the field of a light wave. Therefore, within a certain range of the energy and momentum, a particle in an intermediate state may fall within the mass shell. Then, the considered higher order process i ...
... emission or one-photon creation and annihilation of electron–positron pairs, that may be allowed in the field of a light wave. Therefore, within a certain range of the energy and momentum, a particle in an intermediate state may fall within the mass shell. Then, the considered higher order process i ...
Spooky Action at Spacy Distances
... quantum channel. With probability p Alice and Bob end up sharing a maximally entangled pair, while with probability 1 − p they loose the channel. Single particle distillation : procedures which ‘distill’ maximally entangled states from noisy states, without having to resort to a local maximally enta ...
... quantum channel. With probability p Alice and Bob end up sharing a maximally entangled pair, while with probability 1 − p they loose the channel. Single particle distillation : procedures which ‘distill’ maximally entangled states from noisy states, without having to resort to a local maximally enta ...