File
... Radio waves are used for communications – there are 3 types: Short wave (3’000 – 30’000 kHz) only travel short distances but are very clear, e.g. FM Medium wave (300 kHz – 3 MHz) travel further than short wave, but are not as clear Long wave (>3 MHz) travel a very long way but are less defined ...
... Radio waves are used for communications – there are 3 types: Short wave (3’000 – 30’000 kHz) only travel short distances but are very clear, e.g. FM Medium wave (300 kHz – 3 MHz) travel further than short wave, but are not as clear Long wave (>3 MHz) travel a very long way but are less defined ...
Storing and manipulating quantum information using atomic
... we don't know which particular spin flips: collective states are excited ...
... we don't know which particular spin flips: collective states are excited ...
![[pdf]](http://s1.studyres.com/store/data/008852306_1-4000e0cb7838bcd23cfc141302144e01-300x300.png)
[pdf]
... kept on at all times. In this way we can associate a modulation power spectrum with each spatial location in the sample. By measuring the power spectrum of the reradiated light as a function of modulation frequency. we can determine the object ...
... kept on at all times. In this way we can associate a modulation power spectrum with each spatial location in the sample. By measuring the power spectrum of the reradiated light as a function of modulation frequency. we can determine the object ...
Pulse splitting by modulating the thickness of buffer layer of two
... Where Δωp = 2/T, we get ΔλP = 39.8nm. Gratings that satisfy ΔλG >> ΔλP preserve the incident pulse spectrum, meanwhile ΔλP >ΔλG perform wavelength selectivity. In our discussion, ΔλP > ΔλG, so some spectral components in the incident pulse are filtered out. According to Fourier optics, in time domai ...
... Where Δωp = 2/T, we get ΔλP = 39.8nm. Gratings that satisfy ΔλG >> ΔλP preserve the incident pulse spectrum, meanwhile ΔλP >ΔλG perform wavelength selectivity. In our discussion, ΔλP > ΔλG, so some spectral components in the incident pulse are filtered out. According to Fourier optics, in time domai ...
KINETIC ENERGY DISTRIBUTION OF IONS GENERATED BY
... Hamlling of the transient recorder was carried out by the fast handshake capability of the IEEE-488 interface that facilitated fast data transfer between peripheral and computer at about 100 kbyte s-l rate. Handhg of the other devices was carried out with the powerful data acquisition system of the ...
... Hamlling of the transient recorder was carried out by the fast handshake capability of the IEEE-488 interface that facilitated fast data transfer between peripheral and computer at about 100 kbyte s-l rate. Handhg of the other devices was carried out with the powerful data acquisition system of the ...
Poster PDF (3.9mb)
... = X̂ cos + Ŷ sin but we only angle ✓ around the axis have access to a faulty operation M [✓] = R [✓(1 + ✏)] which over- or under-rotates by a factor ✏ . In the presence of these amplitude errors, how can we still perform R [✓] accurately? The answer comes from the non-commutativity of single-qubit ...
... = X̂ cos + Ŷ sin but we only angle ✓ around the axis have access to a faulty operation M [✓] = R [✓(1 + ✏)] which over- or under-rotates by a factor ✏ . In the presence of these amplitude errors, how can we still perform R [✓] accurately? The answer comes from the non-commutativity of single-qubit ...
The 2005 Nobel Prize in Physics: Optics
... of photons - absorption and emission of single photons, scattering of a photon on an electron, and the like.) The physical principle underlying Glauber's work, as foreshadowed in the Mandel treatment of photo electron counting, is that all conventional methods of light detection involve absorption o ...
... of photons - absorption and emission of single photons, scattering of a photon on an electron, and the like.) The physical principle underlying Glauber's work, as foreshadowed in the Mandel treatment of photo electron counting, is that all conventional methods of light detection involve absorption o ...
Optical limiting in a periodic materials with relaxational nonlinearity Xue Liu,
... The top figure is the input Gaussian field; its pulse width is shorter than the medium so that it samples a large portion of the dispersive spectrum in the medium. The middle figure is the continuation of the forward-propagating pulse as it passes into and through the PBG sample. The bottom figure s ...
... The top figure is the input Gaussian field; its pulse width is shorter than the medium so that it samples a large portion of the dispersive spectrum in the medium. The middle figure is the continuation of the forward-propagating pulse as it passes into and through the PBG sample. The bottom figure s ...
Notebook and Assignment Guidelines
... line, as shown in the diagram at left. These lines show the locations where crests in the two wave patterns will overlap, producing bright spots of light. 4. To see what an interference pattern will look like when viewed on a wall or “screen,” place a piece of scratch paper across the semicircle tra ...
... line, as shown in the diagram at left. These lines show the locations where crests in the two wave patterns will overlap, producing bright spots of light. 4. To see what an interference pattern will look like when viewed on a wall or “screen,” place a piece of scratch paper across the semicircle tra ...
Monolithic, unidirectional single
... direction. A change in the sign of the magnetic field reverses the oscillation direction. We have used Jones-matrix calculus to find numerically the eigenpolarizations and the difference in output coupling for the two directions of traversal. Our calculations show that when the magnetic rotation is ...
... direction. A change in the sign of the magnetic field reverses the oscillation direction. We have used Jones-matrix calculus to find numerically the eigenpolarizations and the difference in output coupling for the two directions of traversal. Our calculations show that when the magnetic rotation is ...
Laboratory Exercises in Physics 2
... Light source resembles a black body, e.g. it emits radiation in the wide spectral range also in the regions of visible or ultraviolet light, which are important in the case of the photoelectric effect. For example a light bulb can be used. In some experiments the intensity of the light source is adj ...
... Light source resembles a black body, e.g. it emits radiation in the wide spectral range also in the regions of visible or ultraviolet light, which are important in the case of the photoelectric effect. For example a light bulb can be used. In some experiments the intensity of the light source is adj ...
0321813545_07_final
... Know that electrons and photons behave in similar ways: both can act as particles and as waves. Know that photons and electrons, even when viewed as streams of particles, still display diffraction and interference patterns in a double‐slit experiment. Use de Broglie’s relation to interconvert wa ...
... Know that electrons and photons behave in similar ways: both can act as particles and as waves. Know that photons and electrons, even when viewed as streams of particles, still display diffraction and interference patterns in a double‐slit experiment. Use de Broglie’s relation to interconvert wa ...
