导图社区 【149】Solid State Physics(固体物理)
《固体物理导论》思维导图。固体物理学是通过量子力学,晶体学,电磁学和冶金学等方法研究刚性物质或固体。他是凝聚态物理学的最大分支。
编辑于2019-09-22 09:02:29Solid State Physics
Lattice vibration and thermal properties of the crystal
One-dimensional lattice vibration
One-dimensional atomic chain vibration
Acoustic grating wave and optical sigma wave
Three-dimensional lattice vibration
basic concept
Dispersion relation and grid wave
Quantization and phonon of lattice vibration
Lattice vibration quantization
Long wave approximation
Experimental determination method of lattice vibration spectrum
Photon scattering
Neutron scattering
Lattice vibration and heat capacity theory
Solid specific heat
Einstein model and Debye model
Non-harmonic effect of lattice vibration
Non-harmonic effect
Heat conduction and thermal expansion
Crystal defects
Basic types of crystal defects
Point defect
Line defects
surface defects
Statistical theory of thermal defects
Diffusion in crystals
The macro law of diffusion
Fick's first law
Fick's second law
Diffusion microscopic institutions
Point defects and conductivity of ionic crystals
Combination of crystals
Atomic electronegativity and crystal binding type
covalent bonding
ionic bonding
metal bonding
molecular bonding
hydrogen bonding
Binding force and binding energy
Interaction potential
Bulk modulus of elasticity
Molecular binding
Type of molecular binding force
polar molecular binding
binding of polar molecules to non-polar molecules
binding of non-polar molecules
Leonard-Jones potential
covalent bonding and ion binding
Covalent combination
Ion binding
crystal structure
Common and dense packing of crystals
Commonality of crystals
close packing
Brahma space lattice and several crystal structure examples
Brahma space lattice
Primary cells and unit cells
Crystal structure example
Simple cube
Face-centered cube
body-centered cubic
NaCl
diamond
perovskite
crystal lattice and crystal plane index
Crystalline and crystal orientation
Crystallographic characteristics
Crystal index
crystal plane and crystal plane index
Crystal face feature
Miller index
inverted lattice
inverted space
inverted lattice vector
Basic properties of inverted lattice
Crystal symmetry and classification of crystal structure
Macro symmetry
Microscopic symmetry
Basic classification of crystal lattice
X-ray diffraction of crystal
X-ray diffraction
Deriving the diffraction equation of crystal X-ray
Experimental method of crystal X-ray
Laue method
rotating single crystal method
powder method
Atomic scattering factor and geometric structure factor
Physical meaning and formula derivation
Diffraction enhancement and extinction