#1
17th April 2015, 02:29 PM
| |||
| |||
Question Paper PRSU
I am the student of BA First year of the Pandit Ravishankar Shukla University and I am doing the preparation of this exam so can you please provide me the 5 year previous year question paper of BA First year of the Pandit Ravishankar Shukla University so that I can do my preparation well according to this?
|
#2
23rd July 2018, 07:07 PM
| |||
| |||
Re: Question Paper PRSU
Can you provide me the syllabus of M. Tech. in Optoelectronics & Laser Technology offered by Faculty of Science of Pt. Ravishankar Shukla University, Raipur (C.G) on which the question paper is based?
|
#3
23rd July 2018, 07:11 PM
| |||
| |||
Re: Question Paper PRSU
The syllabus of M. Tech. in Optoelectronics & Laser Technology offered by Faculty of Science of Pt. Ravishankar Shukla University, Raipur (C.G) on which the question paper is based is as follows: SEMESTER I OE 11 MODERN OPTICS Unit 1 Classification of optical processes, optical coefficients, complex refractive index and dielectric constant, Optical materials : Crystalline insulators and semiconductor, glasses, metal, molecular materials, doped glass and insulator characteristics, Optical Physics in the Solid state, crystal symmetry, electronics bands, vibronic band, the density of state, delocalized states and collective excitation Light propagation: Propagation of light in dense optical medium, Atomic oscillator, vibration oscillator, free electron oscillation, the Kramers Kronig relationship, Dispersion, Optical anisotropy, birefringence. Matrix representation of polarization, Jones vector, Jones matrices, Jones calculus, orthogonal polarization. Reflection and refraction at a plane boundary, fresnels equations. Unit 2 Excitons : Basic concept, free excitons in external electric and magnetic fields, Free Excitions at light densities, frenkel excitons. Luminescence : Light emission in solids, Interband luminescence, Direct and indirect gap materials, photoluminescence : Excitation and relaxation, degeneracy, Photoluminescence spectroscopy. Electroluminescence : General Principles of electroluminescence, light emitting diodes, diode laser. Unit 3 Electromagnetism in dielectrics, Electromagnetism fields and Maxwell equation Electromagnetism waves, Quantum theory of radiative absorption and emission Einstein coefficients, Quantum transition rates, selection rules. Basic concept of phonons, Polaritons and polarons. Unit 4 Nonlinear optics : Non linear optics : Physical origin of optical nonlinearities, Non resonant and resonant nonlinearities, second order nonlinearities, Non liner frequency mixing, Crystal symmetry, Phase matching, Third order non linear media. Harmonic generation, mixing and parametric effects. multiphonon processes Two-photon absorption, saturated absorption, Spectroscopy Rayleigh, and Raman scattering. Stimulated Raman effect, Hyper Raman effect, Coherent Antistoke Raman scattering Self-focusing and self-phase modulation. Self-induced transparency. Solitons. Unit 5 Optical Design, Fourier Optics & Holography : Revision of geometrical optics. Fourier transforms. impulse response transfer function. Scalar diffraction, spatial and temporal coherence. Image forming systems, coherent and incoherent imaging Spatial filtering Holography (Fresnel, Fraunhofer, Fourier). Holographic techniques and applications Fourier transforming property of thin lens Reference Books Optical Electronics, A. Yariv Saunders Optical Electronics, Ghatak & Thyagarajan, Cambridge U.K Essentials of Optoelectronics, A. Rogers (Chapman Hall) Optical Properties of Solids Mark Fox Jasprit Singh, Semi conductor Optoelectronics, McGraw Hill, 1995 Syllabus M. Tech. in Optoelectronics & Laser Technology PRS University, Raipur |