IISGNII गुरुर ब्रह्मा गुरुर विष्णु गुरुर देवो महेश्वरः गुरुः साक्षात्परब्रह्मा तस्मै श्री गुरुवे नमः


595.00 535.00

    Part-I: Survey of Classical Mechanics
  • Newton’s Equations of Motion
  • Lagrangian Mechanics
  • Conservation Laws
  • Hamiltonian Dynamics
  • Problems and Exercises, Part-II: Waves and Wave Functions
  • Position and Momentum Representation of |Psi
  • The Schrödinger Equation
  • Particle in a Box, Part-III: Semiclassical Quantum Mechanics
  • Bohr-Sommerfield Quantization
  • The WKB Approximation
  • Connection Formulas
  • Scattering, Part-IV: Quantum Dynamics (and Other Un-American Activities)
  • Introduction
  • The Two-state System
  • Perturbative Solutions
  • Dyson Expansion of the Schrödinger Equation
  • Time-dependent Schrödinger Equation
  • Time Evolution of a Two-level System
  • Time-dependent Perturbations
  • Interaction between Matter and Radiation
  • Application of Golden Rule: Photoionization of Hydrogen 1s
  • Coupled Electronic/Nuclear Dynamics, Part-V: Representations and Dynamics
  • Schrödinger Picture: Evolution of the State Function
  • Heisenberg Picture: Evolution of Observables
  • Quantum Principle of Stationary Action
  • Interaction Picture, Part-VI: Quantum Density Matrix
  • Introduction: Mixed vs Pure States
  • Time Evolution of the Density Matrix
  • Reduced Density Matrix
  • The Density Matrix for a Two-state System
  • Decoherence, Part-VII: Excitation Energy Transfer
  • Dipole-Dipole Interactions
  • Förster’s Theory
  • Beyond Förster
  • Transition Density Cube Approach, Part-VIII: Electronic Structure of Conjugated Systems
  • Pi Conjugation in Organic Systems
  • Hückel Model
  • Electronic Structure Models
  • Neglect of Differential Overlap
  • An Exact Solution: INDO Treatment of Ethylene
  • Ab Initio Treatments
  • Creation/Annhiliation Operator Formalism for Fermion Systems, Part-IX: Electron-Phonon Coupling in Conjugated Systems
  • Su-Schrieffer-Heeger Model for Polyacetylene
  • Exciton Self-trapping
  • Davydov’s Soliton
  • Vibronic Relaxation in Conjugated Polymers, Part-X: Lattice Models for Transport and Structure
  • Representations
  • Stationary States on a Lattice
  • Kronig-Penney Model
  • Quantum Scattering and Transport
  • Defects on Lattices
  • Multiple Defects
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