![Quantum Monte Carlo simulations of solids W. M. C. Foulkes](http://s1.studyres.com/store/data/000036885_1-33a70d1c395d85070b70e42ef35009e5-300x300.png)
Bright source of cold ions for surface-electrode traps
... above it 关10兴. Such surface traps allow good optical access to the ions and can be fabricated using simpler lithographic techniques than three-dimensional traps 关11–13兴. While the prospect of scalable quantum computing has been the main motivation for developing surface-electrode traps, it is likely ...
... above it 关10兴. Such surface traps allow good optical access to the ions and can be fabricated using simpler lithographic techniques than three-dimensional traps 关11–13兴. While the prospect of scalable quantum computing has been the main motivation for developing surface-electrode traps, it is likely ...
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... states. The secondary light beam generates electronhole pairs (EHP's) whose injection into the material modulates the band bending and changes the joint density of states. Although the effect of optical carrier injection on linear spectroscopies is well understood, the analogous phenomenon in nonlin ...
... states. The secondary light beam generates electronhole pairs (EHP's) whose injection into the material modulates the band bending and changes the joint density of states. Although the effect of optical carrier injection on linear spectroscopies is well understood, the analogous phenomenon in nonlin ...
Thermal effects on sudden changes and freezing
... ones observed in [34,35]. To the best of our knowledge, this kind of double sudden transition and freezing effect for Bures GQD has not been reported in literature and by this result we come to an important conclusion that both the GQD-1 and Bures GQD show similar quantum effects. In Fig. 3 we see t ...
... ones observed in [34,35]. To the best of our knowledge, this kind of double sudden transition and freezing effect for Bures GQD has not been reported in literature and by this result we come to an important conclusion that both the GQD-1 and Bures GQD show similar quantum effects. In Fig. 3 we see t ...
chap29 lecturenotes
... The integer m is called the magnetic quantum number because it becomes important when the atom is placed in a magnetic field. 4. The electron’s spin can point only up or down. These two orientations are described by the spin quantum number ms, which must be one of the values ...
... The integer m is called the magnetic quantum number because it becomes important when the atom is placed in a magnetic field. 4. The electron’s spin can point only up or down. These two orientations are described by the spin quantum number ms, which must be one of the values ...
Early-stage relaxation of hot electrons by LO phonon emission Herve´ Castella
... on realistic models. Nonequilibrium Green’s-function theory, which has been applied to both coupling to phonons19 and to Coulomb correlations,20 requires a large computational effort due to the explicit dependence of Green’s functions on twotime variables. Several variational methods have also given ...
... on realistic models. Nonequilibrium Green’s-function theory, which has been applied to both coupling to phonons19 and to Coulomb correlations,20 requires a large computational effort due to the explicit dependence of Green’s functions on twotime variables. Several variational methods have also given ...
ppt
... Suppose an electron is inside a box 1 nm in width. There is some uncertainty in the momentum of the electron. We then squeeze the box to make it 0.5 nm. What happens to the momentum uncertainty? ...
... Suppose an electron is inside a box 1 nm in width. There is some uncertainty in the momentum of the electron. We then squeeze the box to make it 0.5 nm. What happens to the momentum uncertainty? ...