Nonlinear phenomena in optical fibers
... For many years the nonlinear phenomena were the matter of concern for relatively narrow circle of professionals dealing with the laser spectroscopy. So far, Raman scattering phenomena have widely been used in chemistry, materials engineering, and physics for research on the nature of interactions, c ...
... For many years the nonlinear phenomena were the matter of concern for relatively narrow circle of professionals dealing with the laser spectroscopy. So far, Raman scattering phenomena have widely been used in chemistry, materials engineering, and physics for research on the nature of interactions, c ...
MvR and Th.M. Nieuwenhuizen, Multiple scattering of classical
... The diffusion equation is a classical equation that fully neglects interference effects inherent in wave propagation. At this level of description there is no difference between diffusion of particles and of wave intensity. Whereas a transmission pattern of monochromatic (laser) light through an opa ...
... The diffusion equation is a classical equation that fully neglects interference effects inherent in wave propagation. At this level of description there is no difference between diffusion of particles and of wave intensity. Whereas a transmission pattern of monochromatic (laser) light through an opa ...
Rogue waves – towards a unifying concept?: Discussions
... Your opinion, critique on other contributions of this issue: I am happy that the physics of ocean waves has been contagious. Ten years ago rogue waves were discussed only in the surface gravity wave community and now I see a number of applications of the rogue wave concept in many different fields of ...
... Your opinion, critique on other contributions of this issue: I am happy that the physics of ocean waves has been contagious. Ten years ago rogue waves were discussed only in the surface gravity wave community and now I see a number of applications of the rogue wave concept in many different fields of ...
Optical Antenna Properties of Scanning Probe Tips
... the problem in the quasistatic approximation that allows solving the Laplace equation analytically. This provides the electrostatic potential and thus the distribution of the local optical electric field at the apex region. In contrast to purely numerical techniques, this approach provides direct in ...
... the problem in the quasistatic approximation that allows solving the Laplace equation analytically. This provides the electrostatic potential and thus the distribution of the local optical electric field at the apex region. In contrast to purely numerical techniques, this approach provides direct in ...
Physics - Pakchoicez.com
... __________ is the amount of substance of a system which contain as many elementary entities as there are atom in 0.012kg of carbon 12. ...
... __________ is the amount of substance of a system which contain as many elementary entities as there are atom in 0.012kg of carbon 12. ...
Semiconductor detectors
... Connect readout electronics to strips Radiation induced signal on a strip due to passage under/close to strip ...
... Connect readout electronics to strips Radiation induced signal on a strip due to passage under/close to strip ...
FINAL EXAM - REVIEW PROBLEMS
... Red light from a laser ( 8 = 650 nm) is incident normally (angle of incidence = 2) on a diffraction grating. The first maximum on either side of the center spot occurs at an angle of 23°, as in Fig. (a). Now the angle of incidence is changed to 15°. Calculate 21 and 22 in Fig. (b), the direction of ...
... Red light from a laser ( 8 = 650 nm) is incident normally (angle of incidence = 2) on a diffraction grating. The first maximum on either side of the center spot occurs at an angle of 23°, as in Fig. (a). Now the angle of incidence is changed to 15°. Calculate 21 and 22 in Fig. (b), the direction of ...
Experimental methods of molecular matter
... or other internal properties. The key idea behind these experiments is very analogous to that of atom interferometry: if we can divide a particle’s wave function to travel along at least two spatially distinct paths and if we expose their distinct amplitudes to different force fields they will pick ...
... or other internal properties. The key idea behind these experiments is very analogous to that of atom interferometry: if we can divide a particle’s wave function to travel along at least two spatially distinct paths and if we expose their distinct amplitudes to different force fields they will pick ...
Thomas Young (scientist)
Thomas Young (13 June 1773 – 10 May 1829) was an English polymath and physician. Young made notable scientific contributions to the fields of vision, light, solid mechanics, energy, physiology, language, musical harmony, and Egyptology. He ""made a number of original and insightful innovations""in the decipherment of Egyptian hieroglyphs (specifically the Rosetta Stone) before Jean-François Champollion eventually expanded on his work. He was mentioned by, among others, William Herschel, Hermann von Helmholtz, James Clerk Maxwell, and Albert Einstein. Young has been described as ""The Last Man Who Knew Everything"".