Synthesizing arbitrary quantum states in a superconducting resonator
... qubit excited state | eæ relative to the ground state | gæ. The succeeding swap pulse SN21 can then move the entire population of | g, N 2 1æ to | e, N 2 2æ. This sequence is repeated N times until the ground state | g, 0æ is reached. Steps Qn are performed with resonant qubit microwave pulses of am ...
... qubit excited state | eæ relative to the ground state | gæ. The succeeding swap pulse SN21 can then move the entire population of | g, N 2 1æ to | e, N 2 2æ. This sequence is repeated N times until the ground state | g, 0æ is reached. Steps Qn are performed with resonant qubit microwave pulses of am ...
Stable, mode-matched, medium-finesse optical cavity incorporating
... recent years. Much of this interest has been driven by the goal of observing and exploiting quantum aspects of either the radiation pressure or the micromechanical structures themselves. Outstanding goals in this area include laser cooling micromechanical systems,1,2 quantum-limited displacement mea ...
... recent years. Much of this interest has been driven by the goal of observing and exploiting quantum aspects of either the radiation pressure or the micromechanical structures themselves. Outstanding goals in this area include laser cooling micromechanical systems,1,2 quantum-limited displacement mea ...
The Demonstration
... the other is stationary. Eventually, the one he started in motion comes to rest while the other one begins to move back and forth. If he gives them equal initial displacements, then the spring that connects them never gets stretched/stressed, and then both of them oscillate in unison. Simple harmoni ...
... the other is stationary. Eventually, the one he started in motion comes to rest while the other one begins to move back and forth. If he gives them equal initial displacements, then the spring that connects them never gets stretched/stressed, and then both of them oscillate in unison. Simple harmoni ...
High efficiency high power blue laser by resonant doubling in PPKTP.
... technical applications (for eg. spectroscopy, dark field wafer inspection, etc). While blue diode lasers continue to improve [1] IR frequency doubling techniques still offer attractive features for blue generation. Three basic techniques are in use for doubling. Bulk single pass doubling is one, whe ...
... technical applications (for eg. spectroscopy, dark field wafer inspection, etc). While blue diode lasers continue to improve [1] IR frequency doubling techniques still offer attractive features for blue generation. Three basic techniques are in use for doubling. Bulk single pass doubling is one, whe ...
Two electric field Monte Carlo models of coherent backscattering of
... that provides an understanding of the coherent effects of multiple scattering, such as an enhancement of coherent backscattering (EBS) and formation of laser speckles in optical coherence tomography (OCT) and in dynamic light scattering (DLS). Because of the diversity of probing conditions for compl ...
... that provides an understanding of the coherent effects of multiple scattering, such as an enhancement of coherent backscattering (EBS) and formation of laser speckles in optical coherence tomography (OCT) and in dynamic light scattering (DLS). Because of the diversity of probing conditions for compl ...
“The Rayleigh range of Gaussian Schell
... the diameter of the spot size increases by a factor 21=2 , i.e. at which the cross-sectional area is doubled from pw20 to 2pw20 (see ®gure 1). It is given by the formula zR ˆ ...
... the diameter of the spot size increases by a factor 21=2 , i.e. at which the cross-sectional area is doubled from pw20 to 2pw20 (see ®gure 1). It is given by the formula zR ˆ ...
![Interference [Hecht Ch. 9] Lai if necessary. 1](http://s1.studyres.com/store/data/008906620_1-e32cf5aa2b6001dad68c61a07bbf9975-300x300.png)
Interference [Hecht Ch. 9] Lai if necessary. 1
... quickly. (See Figure 3) Finally, white light, which has a very broad range of frequencies, is a wave which varies quickly in both amplitude and phase. Since it consequently has a very short coherence time (just 10 periods or so), it is often called incoherent. ...
... quickly. (See Figure 3) Finally, white light, which has a very broad range of frequencies, is a wave which varies quickly in both amplitude and phase. Since it consequently has a very short coherence time (just 10 periods or so), it is often called incoherent. ...
Observation of Quantum Oscillations between a Josephson Phase Qubit
... into the left and right-hand wells, which are separated by a single flux quantum in the qubit loop. At a later time, the result of this measurement can be learned by acquiring the I-V curve of a SQUID amplifier positioned to detect flux changes in the qubit loop. We emphasize that the qubit state me ...
... into the left and right-hand wells, which are separated by a single flux quantum in the qubit loop. At a later time, the result of this measurement can be learned by acquiring the I-V curve of a SQUID amplifier positioned to detect flux changes in the qubit loop. We emphasize that the qubit state me ...
GPS General Particle Source
... Giovanni Santin - General Particle Source (GPS) - Ecole Geant4 2008, Annecy ...
... Giovanni Santin - General Particle Source (GPS) - Ecole Geant4 2008, Annecy ...
Aalborg Universitet Photonic crystal distributed feedback fiber lasers with Bragg gratings
... that this method is numerically efficient compared to previous plane wave expansion methods [21]. More details regarding the method may be found in [12]. The single-mode properties of the two chosen fiber designs are illustrated in Fig. 2. The figure shows for both fiber designs for cladding modes, ...
... that this method is numerically efficient compared to previous plane wave expansion methods [21]. More details regarding the method may be found in [12]. The single-mode properties of the two chosen fiber designs are illustrated in Fig. 2. The figure shows for both fiber designs for cladding modes, ...
Chapter 5
... At a given place and time, the net response caused by two or more stimuli is the sum of the responses which would have been caused by each stimulus individually. ...
... At a given place and time, the net response caused by two or more stimuli is the sum of the responses which would have been caused by each stimulus individually. ...