Polarization and Correlation Phenomena in Atomic Collisions: A Practical Theory Course

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  1. Polarization and Correlation Phenomena in Atomic Collisions
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Clebsch-Gordan Coefficients. View via Publisher. Open Access. Save to Library. Create Alert. Share This Paper. Citations Publications citing this paper. Two-electron photoemission from polarized atoms Jamal Berakdar , Nikolai M. New resonant behavior in the spin resolved photoionization of the rare gas atoms Kr 3d and Xe 4p Tarek Khalil. Coherence effects of diatomic homonuclear molecules and sequential two-photon processes of noble gases in the photoionization Gregor Hartmann. Markov processes; Chapman-Kolmogorov equation; jump and telegraph processes; Kubo-Anderson process; Kangaroo process.

Master equation; closed and isolated physical systems; principle of detailed balance. Quantum dissipation; quantum diffusion.

Polarization and Correlation Phenomena in Atomic Collisions

Metal-Insulator Transition : Phenomenology of metal-insulator transition; transitional metal oxides; doped semiconductors; Hubbard model; mean-field solutions; metallic and insulating limits; magnetism; Hartree-Fock picture; itinerant vs. PS Advanced Laser Physics. Mandel and E. Sargent, M.

PhD Course Works

Scully and W. Lamb, Laser Physics, Addison-Wesley Meystre and M. Kinetic Ising model; 1-dimensional solution; mean-field theory; time-dependent Ginsburg-Landau equation; dynamical scaling and exponents; renormalization group theory. Stereochemistry- Optical activity; Chirality; Topicity and prostereoisomerism; Conformations of acyclic and cyclic molecules. Mechanism, reactivity and reactions of- Aliphatic and aromatic nucleophilic substitution; Aliphatic and aromatic electrophilic substitution; Addition to C-C and C-hetero multiple bonds; Elimination and Rearrangements; Oxidation and reductions.

Career Research Intranet. Admission Current Event History. New Mehrauli Road, New Delhi All rights reserved. Course Work in Physical Sciences. Course Work in Chemical Sciences. Course Work in Mathematics. Courses in Mathematics. Courses in Physical Sciences. Two-level and other finite-dimensional Hilbert space problems.


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Course Outline: Stochastic variables; multivariate distributions; Gaussian distributions; central limit theorem. Classical Chaos Qualitative analysis of ordinary differential equations; dissipative and conservative systems; Lagrangian and Hamiltonian formulation; integrability and Hamilton-Jocobi equations; perturbation methods; K. Attractors — simple and strange; Lyapunov exponents; Lorenz system. Quantum Chaos Semiclassical mechanics; W.


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Suggested Texts: R. Lichtenberg and M.

Physics - Wikipedia

PS Advanced Laser Physics Course Outline : Quantization of free electromagnetic field; coherent states of electromagnetic field; blackbody radiation; density operator r; photon statistics; diagonal coherent-state representation of r. Suggested Texts : L. PS Non-equilibrium Statistical Mechanics Course Outline : Kinetic Ising model; 1-dimensional solution; mean-field theory; time-dependent Ginsburg-Landau equation; dynamical scaling and exponents; renormalization group theory.

Universality; Landau theory for phase transitions. Course outline: Motivation. Motion of a non-relativistic string, normal modes. Classical motion of a string, dynamics on the world-sheet, conserved quantities. Point particle in light-cone gauge, quantization. String thermodynamics: counting of states, partition function.

Overview of results. Suggested Texts: B.

A Practical Theory Course

Goldstein, Classical mechanics Addison-Wesley J. Sakurai, Modern quantum Mechanics Pearson education L. PS Introduction to Computational Neuroscience A major effort is currently under way to understand the operation of the central nervous system, and more specifically, of neuronal networks in the brain. ISBN 2. ISBN 3. Courses in Chemical Sciences. Physical Chemistry Thermodynamics- Conservation of energy; Review of Enthalpy, Entropy, Free energy with examples involving chemical systems. Acids and Bases. Named reactions; New reagents; Catalysts and their applications. Acids and Bases- Measures of acid-base strength; Hard and soft acids and bases.

Huheey, E. Keiter; R. Electroanalytical Chemistry Potentiometry, Coulometry and Voltammetry. Statistical Analysis- Evaluating Data Confidence limits, statistical aids to hypothesis testing; Detecting gross errors; Least square methods. Skoog, F. James Holler, Timothy A. Nieman; Saunders Golden Sunburst Series. Spectrometric Identification of Organic Compounds by R. Silverstein, F. Molecular Mechanics: Fundamentals; Potential energy functions; Force fields; Electrostatic interactions; van der Waals interactions; Geometry optimization; Energy minimization methods.

Suggested Texts: Ira. Course Outline: Fundamentals of Photochemistry: Overview Laws of photochemistry; Interaction of radiation with matter; Transition between states; Fermi-Golden rule; Electronic transitions, dipole approximation and two-photon transitions. Spectroscopic Techniques and Applications Laser Fundamentals Introduction to Lasers; Coherence; Population inversion; Laser cavity modes; Pulsed laser operations; Q-switching and mode-locking; Pulsed laser sources Diode lasers, Ti:Sapphire lasers ; Frequency multiplication of lasers and nonlinear optical effects.

Suggested Texts: Nicholas J. Colin N.

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William T. Robert M. Silverstein, Francis X. Websterand, David J. Course Outline: Principles of molecular recognition Quantification of non-covalent forces and medium effects; Host design; Preorganization; Enthalpy and entropic contributions; Cooperativity and allosteric effects; Induced fit; Complexation selectivity.

Steed and J. Atwood, John Wiley and Sons, Ltd. Yatsimirsky, John Wiley and Sons, Ltd. Self-assembling systems: Carboxylic acid dimers, alcohol-amine, amides etc. Liquid crystals Designing principles and classifications. Organogels, Hydrogels Designing principles and effects of H-bonding, p-p stacking, van der Waals interactions. Glasses Design, properties and characterization. Electrochromic materials: Definition and designing principles, conducting polymers, metallo polymers, metallophthalocyanines, visible and infrared electrochromism.

Nonlnear Optical NLO materials: Definition of First-order and Second-order hyperpolarizabilities, Experimental techniques Electric field induced second harmonic generation, Hyper Rayleigh Scattering to determine b and c. How to synthesize molecules?

Suggested Texts: The design of organic solids by G. Introductory laboratory emphasizing atomic spectra, diffraction and basic quantum physics. PHYS 6A. Presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper-division study in the life sciences. Vectors, velocity, acceleration. Newton's laws. Work and energy.