Course Orientation and introduction to solid state Physics
Solid state Physics 1- course lecture series
Course Outline
Crystal structure in 2D and 3D, fundamental types of lattices, index system for crystal planes, simple
crystal structures.
X-ray diffraction, Braggs law, Ewald Construction, reciprocal lattice, Diffraction of waves by crystals,
scattered wave amplitude, Brillouin zones.
crystal binding and elastic constants, Classification of Solids, ionic crystals, covalent crystals, Ionic Radii,
II-VI and III-V compounds, Molecular crystals, metals, Cohesive energy, The Lenard Jones Potential,
Density, Cohesive energy and Bulk Modulus of crystalline solids, The Madelung constant, Cohesion in
Covalent crystals, elastic waves in cubic crystals.
Brief Introduction to Defects in Solids, Color Center.
Vibration of crystals with monatomic basis, two atoms per primitive basis, quantization of elastic waves,
normal vibration modes and phonon, phonon momentum, inelastic scattering by phonons.
Phonon heat capacity, lattice heat capacity, Einstein and Debye models.
What is solid state Physics?
Classification of solids
What is the point ?
What is crystallography?
Concept of crystal lattice
Translational vector a letters vector
Basis
Unit cell
What is symmetry operation?
Classification
What are lattice directions?
Family of directions
What are crystallographic planes?
What are Miller Indices
Common cubit planes
Family planes
Steps to find Miller Indices
What is enter planners spacing?
How to calculate interplanar spacing?
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You can also download:
Solid State Physics 1 Complete handwritten notes
(rk puri vk babber & M A Wahab book)
Solid State Physics 2 Complete handwritten notes
(rk puri vk babber & M A Wahab book)
Solid State Physics chap # 1 problems solution
(rk puri vk babber solid state physics book)
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Solid state Physics
Solids
Crystalline Solids
Polycrystalline Solids
Amorphous Solids
Periodic arrays of atoms
Crystallography
Crystal structure
Lattice
Lattice sites
Coordination number
Simple cubic structure
Body centred cubic structure
Face centred cubic structure
Hexagonal close packing structure
Lattice ( basis of Crystal translational) vectors
Lattice coordinates
Lattice constant
Primitive lattice cell
Wigner-seitz cell
Bravais and non-Bravais lattices
Fundamental types of lattices
Two dimensional lattices types
Three dimensional lattices types
Symmetry operation in a crystal
Centre of symmetry
Plane of symmetry
Axes of symmetry
5 fold rotation axis is not compatible with the lattice
Atomic radius
SC structure
BCC structure
Fcc structures
Diamond cubic structure
Number of atoms per unit cell
Simple cubic structure
Body centred structure
Face centred structure
Hexagonal close packed structure
Density of packing or packing fraction
Miller Indices
Relation between interplanar spacing and Miller Indices
Planes with the different Miller Indices in cubic crystals
Comparison of cell properties of some crystal lattices
Sodium Chloride structure
The Diamond structure
Zinc sulphide structure
The caesium chloride structure
Crystal Structure complete notes pdf
Bonding topic ppt slides pdf
Evaluation of Madelung constant ppt slides pdf
Binding Energy of Ionic Crystals ppt slides pdf
Lattice Vibrations complete notes ppt slides pdf
X-rays Diffraction and Bragg's law
Packing fraction or packing density complete ppt slides pdf
Different Crystals Structures ppt slides pdf
Reciprocal Lattice complete ppt slides pdf
Binding energy
OTHER NOTES PDF :
Nuclear physics handwritten notes
Relativity and Cosmology handwritten notes
Classical Mechanics handwritten notes
Atomic and Molecular physics handwritten notes
Quantum Mechanics handwritten notes
BOOKS:
Solid state physics by RK Puri VK Babber book pdf
Physics practical note book for BS Physics students part 2 pdf
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