Radiative Transitions between Electronic States
... If the field can couple to the electrons it can exchange energy by driving the system into resonance at a frequency common to both ...
... If the field can couple to the electrons it can exchange energy by driving the system into resonance at a frequency common to both ...
PHYS 1111 Mechanics, Waves, & Thermodynamics
... Dispersion and Prisms For a given material (and nearly all materials), the index of fraction is a function of the wavelength of the incident light, n=n() This implies that the speed of light inside the medium depends on The dependence of wave speed v and n on is called dispersion Since n=n(), ...
... Dispersion and Prisms For a given material (and nearly all materials), the index of fraction is a function of the wavelength of the incident light, n=n() This implies that the speed of light inside the medium depends on The dependence of wave speed v and n on is called dispersion Since n=n(), ...
Algebra-based Physics II
... Light-colored bodies reflect most of the radiation incident on them. Dark-colored bodies absorb most of the radiation incident on them. Choose wisely the color of your tee-shirt. If an opaque body is in thermal equilibrium with its surroundings, then it must be absorbing and emitting radiation at th ...
... Light-colored bodies reflect most of the radiation incident on them. Dark-colored bodies absorb most of the radiation incident on them. Choose wisely the color of your tee-shirt. If an opaque body is in thermal equilibrium with its surroundings, then it must be absorbing and emitting radiation at th ...
A solution to Maxwell`s equations in free space
... decreases with temperature: the light gets refracted and ...
... decreases with temperature: the light gets refracted and ...
Simple Creative Projects from an Optics Teaching Laboratory
... well for numerous laser beam profile measurements and the like, but in this case a very simple automated method based on the serial interface port in the Radio Shack Model 22-805 digital multimeter was employed instead. The software provided with the meter transferred one reading per second into a t ...
... well for numerous laser beam profile measurements and the like, but in this case a very simple automated method based on the serial interface port in the Radio Shack Model 22-805 digital multimeter was employed instead. The software provided with the meter transferred one reading per second into a t ...
Qn_Bank1
... Mention any 4 properties of ultrasonic waves. What is magnetostriction effect? What is meant by piezoelectric effect? What are the different methods used for the production of ultrasonic waves? Mention some uses of the ultrasonic waves. What is SONAR? Explain how ultrasonic waves are used in SONAR. ...
... Mention any 4 properties of ultrasonic waves. What is magnetostriction effect? What is meant by piezoelectric effect? What are the different methods used for the production of ultrasonic waves? Mention some uses of the ultrasonic waves. What is SONAR? Explain how ultrasonic waves are used in SONAR. ...
The Michelson Interferometer and Its Applications
... Enter Albert Michelson. Michelson conjectured that if the speed of light relative to the hypothetical aether was indeed constant, then the Earth’s orbital velocity relative to this aether should exhibit obser ...
... Enter Albert Michelson. Michelson conjectured that if the speed of light relative to the hypothetical aether was indeed constant, then the Earth’s orbital velocity relative to this aether should exhibit obser ...
PDF
... are determined by the numerical apertures of the fiber and the geometrical settings of the optical elements composing the spectral filter. The pump is a 5-ps-duration mode-locked pulse train with a repetition rate of 75.3 MHz, obtained by spatially dispersing the output of an optical parametric osci ...
... are determined by the numerical apertures of the fiber and the geometrical settings of the optical elements composing the spectral filter. The pump is a 5-ps-duration mode-locked pulse train with a repetition rate of 75.3 MHz, obtained by spatially dispersing the output of an optical parametric osci ...
OAM-correlated pair transmission
... source. Light emitted from this source and directed back towards the down-conversion crystal is in essence the time-reversal of the parametric emission. After transmission through any optical elements, this light is reflected from the down-conversion crystal towards the other detector, i.e. the crys ...
... source. Light emitted from this source and directed back towards the down-conversion crystal is in essence the time-reversal of the parametric emission. After transmission through any optical elements, this light is reflected from the down-conversion crystal towards the other detector, i.e. the crys ...
Cooling in Optical Lattices
... drop the atom into the lower energy ground state (blue line) • The atom loses more energy than it gains, so it is cooled ...
... drop the atom into the lower energy ground state (blue line) • The atom loses more energy than it gains, so it is cooled ...
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II. Optical properties of glass
... Physical specifications of colour are associated with objects, materials, light sources, etc., based on their physical properties such as: light absorption, reflection, or emission spectra. Colour is the perception, based on the varying sensitivity of different types of cone and rods cells in the re ...
... Physical specifications of colour are associated with objects, materials, light sources, etc., based on their physical properties such as: light absorption, reflection, or emission spectra. Colour is the perception, based on the varying sensitivity of different types of cone and rods cells in the re ...
Theory of optical pulse propagation, dispersive and nonlinear effects
... (weakly) also on z due to the divergence of the beam. The light pulse will have to be a solution of the nonlinear wave equation (IV-77) in the general case of high intensities: ...
... (weakly) also on z due to the divergence of the beam. The light pulse will have to be a solution of the nonlinear wave equation (IV-77) in the general case of high intensities: ...
class06
... • f is the phase constant that determines where the wave starts; w = 2pf = 2p/T; k = 2p/l; v = l/T = lf = w/k • Light always reflects with an angle of reflection equal to the angle of incidence (angles are measured to the normal). • When light travels into a denser medium from a rarer medium, it slo ...
... • f is the phase constant that determines where the wave starts; w = 2pf = 2p/T; k = 2p/l; v = l/T = lf = w/k • Light always reflects with an angle of reflection equal to the angle of incidence (angles are measured to the normal). • When light travels into a denser medium from a rarer medium, it slo ...
INTRODUCTION TO AO MODULATORS AND DEFLECTORS
... This leads to chromatic cross talk between neighboring wavelengths. Test data was plotted showing the level of cross talk for each operating wavelength typically available out of an Ar+/Kr laser. Even though the 48062-2.5-.55 has a worse case cross talk of 10%, it is in the red wavelengths that are ...
... This leads to chromatic cross talk between neighboring wavelengths. Test data was plotted showing the level of cross talk for each operating wavelength typically available out of an Ar+/Kr laser. Even though the 48062-2.5-.55 has a worse case cross talk of 10%, it is in the red wavelengths that are ...
PDF (Size: 3.8M)
... In photo-electric effect, photon interacted with electron as a quantum of energy. In Compton effect, photons of X-rays were scattered by electrons as if they are real particles. In fact, Compton effect was successfully explained by treating photons as real particles and applying the laws of conserva ...
... In photo-electric effect, photon interacted with electron as a quantum of energy. In Compton effect, photons of X-rays were scattered by electrons as if they are real particles. In fact, Compton effect was successfully explained by treating photons as real particles and applying the laws of conserva ...