This book
explains the following topics: Atomic Models, Dalton’s and Thomson’s Models,
Rutherford’s alpha Scattering Experiment, Rutherford’s Planetary, Model of an
Atom, Bohr’s Model of an Atom , Electrical Discharges, Discovery of Cathode
Rays, Atomic Spectra, Quantum Numbers, Zeeman Effect, Emission and Absorption
Spectra, Pauli Exclusion Principle, X-Rays, X-Ray Diffraction, Moseley’s Law.
This note explains atomic nature of matter,
Chart of the nuclides, Mass defect and binding energy, Modes of radioactive
decay, Radioactivity, Neutron interactions, Nuclear fission, Energy release from
fission and interaction of radiation with matter.
This PDF covers the
following topics related to Modern Atomic and Optical Physics : Quantum
mechanics and atomic physics review, Basic processes in AMO physics and quantum
optics, Mathematical methods for open systems, Propagation of light in a
resonant medium, Coherent interactions in multi-level systems, Stochastic
Wavefunctions, Adiabatic Processes, Atomic motion in laser light, Quantum
properties of light interacting with matter, Trapped ions: quantum state
engineering, Quantum dynamics of atomic matter waves.
This note covers the
following topics: Planck's energy distribution law, Relation between Einstein
coe cients, Waves and particles, Schrodinger equation, Particle in a box, Ground
state of the hydrogen atom, Harmonic oscillator 1-D, Hydrogen atom and central
forces, Interaction of atoms with electromagnetic radiation, Spin of the
electron.
This lecture
note covers the following topics: Introduction: atoms and electromagnetic waves,
Failures of classical physics, Wave and Particle duality, Bohr’s atom, The wave
function and Schrodinger equation, Quantum mechanics of some simple systems,
Principles and Postulates of Quantum mechanics, Angular momentum and electron
spin.
Major
topics covered are: Ultracold atom: electron interaction, Laser sub cycle two
dimensional electron momentum mapping using orthogonal two color fields ,
Magneto optical trapping of a diatomic molecule , Coherent magnon optics in a
ferromagnetic spinor Bose-Einstein condensate, Nanophotonic quantum phase switch
with a single atom , Exact equations of motion for natural orbitals of strongly
driven two electron systems.
This book covers the following topics: Angular Momentum, Central-Field
Schr¨odinger Equation, Self-Consistent Fields, Atomic Multiplets, Hyperfine
Interaction & Isotope Shift, Radiative Transitions and MBPT for Matrix
Elements.
This note covers the following topics: Spectroscopy, Bohr model of the
atom, The Schrodinger equation of the hydrogen atom, Optical transitions in a
two-level system, Magnetic effects in atoms and the electron spin, Many electron
atoms, Energy levels in molecules; the quantum structure.
This lecture note covers the following
topics: Radiation and Atoms, Central Field Approximation , Corrections to the
Central Field: Spin-Orbit interaction, Two-electron Atoms: Residual
Electrostatic Effects and LS-Coupling, Nuclear Effects on Atomic Structure,
Selection Rules, Atoms in Magnetic Fields, X-Rays: transitions involving inner
shell electrons, High Resolution Laser Spectroscopy.
This
lecture note covers the following topics: Nuclei , Empirical Mass Formula,
Nuclear Force, Yukawa Theory and Two-nucleon System, Fundamental Description of
Nuclear Force, Fermi Gas and Deformed Nuclei.
The aim of this note is to explain the
quantum theory of the hydrogen atom and other simple atoms and describes the
main features of atomic spectra and the basic principles of laser operation.
This
note covers the following topics: Atomic and nuclear physics describes
fundame===========ntal particles (i.e. electrons, protons, neutrons), their structure,
properties and behavior.