Nonlinear optical properties of nanocomposite materials
... been eaten away from the host material. When still more material has been eaten away, the resulting structure can be modelled as cylindrical columns of silicon surrounded by voids. In either case, the voids can be filled with a second material to form a composite structure. These composite materials ...
... been eaten away from the host material. When still more material has been eaten away, the resulting structure can be modelled as cylindrical columns of silicon surrounded by voids. In either case, the voids can be filled with a second material to form a composite structure. These composite materials ...
Proposal for a Magneto-optical Beam Splitter for Atoms.
... momentum states. In contrast the magneto-optical interaction produces a clearly two-peaked envelope, i.e. it leads to an efficient beam splitting into high-order momentum states. The effects of non-adiabatic transitions, the solution for arbitrary angles between the polarizations and the calculation ...
... momentum states. In contrast the magneto-optical interaction produces a clearly two-peaked envelope, i.e. it leads to an efficient beam splitting into high-order momentum states. The effects of non-adiabatic transitions, the solution for arbitrary angles between the polarizations and the calculation ...
Nonlinear matter wave optics
... Solitons are encountered in many different fields, such as oceanography (Tsunamis), biology (signal transmission in nerves) and physics. J.S. Russell described 1834 for the first time the formation of a soliton in a narrow water channel. This water wave didn’t change its shape for a long distance. I ...
... Solitons are encountered in many different fields, such as oceanography (Tsunamis), biology (signal transmission in nerves) and physics. J.S. Russell described 1834 for the first time the formation of a soliton in a narrow water channel. This water wave didn’t change its shape for a long distance. I ...
Midterm Exam
... b. Pick one of these stable resonators (choose numbers that satisfy the condition for part a) and solve for the mode of this cavity. Specifically, plot the spotsize, w(z), and the radius of curvature, R(z), of the mode everywhere in the cavity. c. Put a focusing lens immediately after the output cou ...
... b. Pick one of these stable resonators (choose numbers that satisfy the condition for part a) and solve for the mode of this cavity. Specifically, plot the spotsize, w(z), and the radius of curvature, R(z), of the mode everywhere in the cavity. c. Put a focusing lens immediately after the output cou ...
Chapter 11. Photoelasticity. Introduction Sample problems 11
... polarized light incident on a half wave plate with the fast axis making an angle of 450 with the vertical axis. Get the expression of the emerging wavefronts and the type of polarization. Solution to 11-S1 Figure P11.1 shows the scheme of the plane polarized light incident on a quarter wave plate. D ...
... polarized light incident on a half wave plate with the fast axis making an angle of 450 with the vertical axis. Get the expression of the emerging wavefronts and the type of polarization. Solution to 11-S1 Figure P11.1 shows the scheme of the plane polarized light incident on a quarter wave plate. D ...
OSA journals template (MSWORD)
... during the pass through the OPO region of the crystal. The second harmonic of the signal wave was on the other hand enhanced in this way due to the high intracavity signal intensity and up to 150 mW of red light at 679 nm has been generated. We have also tested the SFG-OPO using a 51.5 mm long PPLN ...
... during the pass through the OPO region of the crystal. The second harmonic of the signal wave was on the other hand enhanced in this way due to the high intracavity signal intensity and up to 150 mW of red light at 679 nm has been generated. We have also tested the SFG-OPO using a 51.5 mm long PPLN ...
![tutorial #10 [wave nature of light] .quiz](http://s1.studyres.com/store/data/020410144_1-db052accb2aa8cded167524d89755606-300x300.png)
tutorial #10 [wave nature of light] .quiz
... is 3.77 × 108 m away, the light strikes a reflector left there by astronauts. The reflected light returns to the earth, where it is detected. When it leaves the spotlight, the circular beam of light has a diameter of about 0.20 m, and diffraction causes the beam to spread as the light travels to the ...
... is 3.77 × 108 m away, the light strikes a reflector left there by astronauts. The reflected light returns to the earth, where it is detected. When it leaves the spotlight, the circular beam of light has a diameter of about 0.20 m, and diffraction causes the beam to spread as the light travels to the ...
06_Waves_Sound
... second is called the beat frequency. The beat frequency is the absolute value of the difference of the frequencies of the component waves: f beat = |f1 – f2| ...
... second is called the beat frequency. The beat frequency is the absolute value of the difference of the frequencies of the component waves: f beat = |f1 – f2| ...
Optical Solitons with Fourth Order Dispersion and Dual
... by Hasegawa and Tappert [4]. A couple of years later Mollenauer et al succesfully performed the famous experiment to verify this prediction [4]. Important characterestic properties of these solitons are that they posses a localized waveform which remains intact upon interaction with another soliton. ...
... by Hasegawa and Tappert [4]. A couple of years later Mollenauer et al succesfully performed the famous experiment to verify this prediction [4]. Important characterestic properties of these solitons are that they posses a localized waveform which remains intact upon interaction with another soliton. ...
