Slides - Particle Physics
... The third term, HI , produces a correlation between the system and the detector and has the form: , where A is the variable to be measured with values an and q, p are generalised conjugate variables. This term is switched on long enough to make the measurement and produce a strong correlation but no ...
... The third term, HI , produces a correlation between the system and the detector and has the form: , where A is the variable to be measured with values an and q, p are generalised conjugate variables. This term is switched on long enough to make the measurement and produce a strong correlation but no ...
Electronic States in Semiconductor Quantum Dots
... quantum well is a thin, flat layer of semiconductor sandwiched between two layers of another semiconductor with larger bandgap. Owing to this bandgap difference, the conduction and valence band edges of the two materials do not align with each other (band off-set). The band off-set produces the pote ...
... quantum well is a thin, flat layer of semiconductor sandwiched between two layers of another semiconductor with larger bandgap. Owing to this bandgap difference, the conduction and valence band edges of the two materials do not align with each other (band off-set). The band off-set produces the pote ...
Relative phase of two Bose
... particular state of the one-atom Hilbert space. A classical field u c 0 u e i f with a well defined amplitude u c 0 u and phase f is associated with this coherent state. Experimentally, however, one can, in principle, measure the exact number of trapped atoms. The condensate is then described by a F ...
... particular state of the one-atom Hilbert space. A classical field u c 0 u e i f with a well defined amplitude u c 0 u and phase f is associated with this coherent state. Experimentally, however, one can, in principle, measure the exact number of trapped atoms. The condensate is then described by a F ...
Exciton in a quantum wire in the presence of parallel and
... quantum wires 共QWRs兲 and quantum dots 共QD兲, have attracted much attention for potential application in highperformance devices since they are theoretically predicted to offer superior optical and electrical characteristics.1,2 A few main techniques exist to fabricate QWRs, such as electron beam lith ...
... quantum wires 共QWRs兲 and quantum dots 共QD兲, have attracted much attention for potential application in highperformance devices since they are theoretically predicted to offer superior optical and electrical characteristics.1,2 A few main techniques exist to fabricate QWRs, such as electron beam lith ...
Isolated-core excitations in strong electric fields. I. Theory F. Robicheaux
... Rydberg states 关9,10兴. Early measurements 关11兴 and calculations 关12兴 showed the effect of electric fields on a Rydberg series. However, it has not yet been possible to perform detailed comparisons between experimental and calculated recombination cross sections for individual resonances in a static ...
... Rydberg states 关9,10兴. Early measurements 关11兴 and calculations 关12兴 showed the effect of electric fields on a Rydberg series. However, it has not yet been possible to perform detailed comparisons between experimental and calculated recombination cross sections for individual resonances in a static ...
Ch. 8 notes
... you want to look at the momentum right before and right after the collision occurs 2 colliding trucks, momentum is same before and right after – friction provides an impulse that will reduce momentum afterward Billiard balls, etc. Later, we’ll discuss kinetic energy (energy of moving things). Moment ...
... you want to look at the momentum right before and right after the collision occurs 2 colliding trucks, momentum is same before and right after – friction provides an impulse that will reduce momentum afterward Billiard balls, etc. Later, we’ll discuss kinetic energy (energy of moving things). Moment ...
Implementation of a Toffoli gate with superconducting circuits
... control qubits are in state j01æ. In other words, this corresponds to a sign change of only one of the eight computational three-qubit basis states: j011æ « 2j011æ. The basic idea of ‘hiding’ states by transforming them into noncomputational states to simplify the implementation of a Toffoli gate wa ...
... control qubits are in state j01æ. In other words, this corresponds to a sign change of only one of the eight computational three-qubit basis states: j011æ « 2j011æ. The basic idea of ‘hiding’ states by transforming them into noncomputational states to simplify the implementation of a Toffoli gate wa ...
