![lecture 5 radiation and matter](http://s1.studyres.com/store/data/002797557_1-e386a96c1c8d156be02ceb5743426476-300x300.png)
lecture 5 radiation and matter
... Auger e- are of specific energies based on elemental composition (like characteristic x-rays) these are not quantitatively measured in our JEOL5310LV SEM ...
... Auger e- are of specific energies based on elemental composition (like characteristic x-rays) these are not quantitatively measured in our JEOL5310LV SEM ...
Building a Microwave Antenna for a Quantum Microscope
... When coupled, the pendulums will transfer energy. ...
... When coupled, the pendulums will transfer energy. ...
16-3 NV pages mx - Quantum Optics and Spectroscopy
... This speed increase is directly linked to the fact that the register of a quantum computer can be prepared in a superposition of states, which are then processed in parallel. The creation of a ‘universal’ quantum computer becomes possible only if one can routinely prepare and handle entangled partic ...
... This speed increase is directly linked to the fact that the register of a quantum computer can be prepared in a superposition of states, which are then processed in parallel. The creation of a ‘universal’ quantum computer becomes possible only if one can routinely prepare and handle entangled partic ...
Creating and Detecting Micro-Macro Photon
... nonlinear optics, one can distinguish proposals based on Kerr nonlinearities [6], and proposals and experiments based on parametric down-conversion [7–9]. The latter area has recently seen significant activity, a lot of which was stimulated by Ref. [9], which claimed the creation and detection of en ...
... nonlinear optics, one can distinguish proposals based on Kerr nonlinearities [6], and proposals and experiments based on parametric down-conversion [7–9]. The latter area has recently seen significant activity, a lot of which was stimulated by Ref. [9], which claimed the creation and detection of en ...
the einstein-podolsky-rosen paradox and the nature of reality
... positions and momenta. If the momentum of one of the particles is p then the momentum of the other is –p. Similarly, if the position of one of the particles is x, then the position of the other is x-x0. Such quantum correlations are called entanglement [8]. As we will see in the following discussion ...
... positions and momenta. If the momentum of one of the particles is p then the momentum of the other is –p. Similarly, if the position of one of the particles is x, then the position of the other is x-x0. Such quantum correlations are called entanglement [8]. As we will see in the following discussion ...
AtomLightEmissQuantum
... Light occurs in elemental quantized packets of energy, called photons. A quantum is a unit--the smallest amount of ...
... Light occurs in elemental quantized packets of energy, called photons. A quantum is a unit--the smallest amount of ...
Generation of nonclassical states from thermal radiation
... maximum rate of 160,000 frames per second. Each sequence of frames is then transferred to a personal computer where the areas of the pulses are measured and their statistic distributions are analyzed in real time. If a narrow temporal gate with the laser pulses is used, the typical rate of state pre ...
... maximum rate of 160,000 frames per second. Each sequence of frames is then transferred to a personal computer where the areas of the pulses are measured and their statistic distributions are analyzed in real time. If a narrow temporal gate with the laser pulses is used, the typical rate of state pre ...
Electric Potential
... E = nhf Where: h = Planck’s Constant (6.626 x 10-34J•s) f = vibrational frequency n = 0, 1, 2, 3, … Note: Energy is not permitted for values other than those which satisfy the equation (You cannot have ½ of a photon). Each value of n can be thought of as a photon; where 1 photon would be 1hf and two ...
... E = nhf Where: h = Planck’s Constant (6.626 x 10-34J•s) f = vibrational frequency n = 0, 1, 2, 3, … Note: Energy is not permitted for values other than those which satisfy the equation (You cannot have ½ of a photon). Each value of n can be thought of as a photon; where 1 photon would be 1hf and two ...
Teaching Modern Physics - IMSA Digital Commons
... one particle at a time at slits? Show YouTube video of actual experiment Discuss why this is weird Add sensors to see which slit the particle passed through – show how interference disappears ...
... one particle at a time at slits? Show YouTube video of actual experiment Discuss why this is weird Add sensors to see which slit the particle passed through – show how interference disappears ...
- IMSA Digital Commons
... A photon interferes with itself? Each photon goes through both slits? ...
... A photon interferes with itself? Each photon goes through both slits? ...
Creating Entanglement
... Successful outputs are provided as ancillas for a GC type of teleporter; by only supplying proper states, the quantum computation is not hindered by the local success rate of the nonlinear gate. ...
... Successful outputs are provided as ancillas for a GC type of teleporter; by only supplying proper states, the quantum computation is not hindered by the local success rate of the nonlinear gate. ...
The single particle density of states
... sound waves are also quantized and the name given to a single quantum is the “phonon”. The dispersion relation at long wavelengths is ǫ = h̄ω = h̄vk , ...
... sound waves are also quantized and the name given to a single quantum is the “phonon”. The dispersion relation at long wavelengths is ǫ = h̄ω = h̄vk , ...