Category:Condensed matter physics
From HandWiki
Here is a list of articles in the Condensed matter physics category of the Physics portal.
 | Pages in this category should be moved to subcategories where applicable. This category may require frequent maintenance to avoid becoming too large. It should directly contain very few, if any, pages and should mainly contain subcategories. |
Condensed matter physics is the field of physics that deals with the macroscopic physical properties of matter. In particular, it is concerned with the "condensed" phase matter, phases that appear whenever the number of constituents in a system is extremely large and the interactions between the constituents are strong. The most familiar examples of condensed phases are solids and liquids; more exotic condensed phases include the superfluid and the Bose-Einstein condensate, the superconducting phase, and the ferromagnetic and antiferromagnetic phases of spins on atomic lattices.
Subcategories
This category has the following 31 subcategories, out of 31 total.
B
- Bose–Einstein condensates (13 P)
C
- Correlated electrons (24 P)
E
F
G
- Glass physics (33 P)
I
L
M
- Mesoscopic physics (35 P)
P
- Plasmonics (38 P)
Q
- Quantum magnetism (21 P)
R
S
- Superfluidity (38 P)
W
- Water physics (8 P)
Pages in category "Condensed matter physics"
The following 200 pages are in this category, out of 316 total.
(previous page) (next page)A
B
C
- Physics:Cavity method
- Physics:Charge density wave
- Physics:Chiral magnetic effect
- Physics:Collision cascade
- Physics:Colloid
- Physics:Colloidal crystal
- Physics:Computational chemical methods in solid-state physics
- Physics:Crowther criterion
- Physics:Conductance quantum
- Physics:Configuron
- Physics:Confined liquid
- Physics:Constant-energy surface
- Physics:Contact angle
- Physics:Cophonicity
- Biology:Cryochemistry
- Physics:Crystal field theory
- Physics:Crystal optics
- Physics:Crystallography
- Physics:Cyclotron resonance
D
- Physics:Dangling bond
- Physics:Debye model
- Physics:Debye–Waller factor
- Physics:Deep-level trap
- Physics:Degenerate semiconductor
- Physics:Diamond anvil cell
- Physics:Dirac matter
- Physics:Dislon
- Physics:Dissipative particle dynamics
- Physics:Doping (semiconductor)
- Physics:Dose-fractionation theorem
- Physics:Dukhin number
- Physics:Dulong–Petit law
- Physics:Dyakonov surface wave
- Physics:Dyakonov surface waves
- Physics:Dyakonov-Voigt wave
- Physics:Dyakonov–Voigt wave
- Physics:Dynamic electrophoretic mobility
- Physics:Dynamic structure factor
E
- Physics:Effective field theory
- Physics:Effective mass (solid-state physics)
- Physics:Effective medium approximations
- Physics:Einstein solid
- Physics:Electret
- Physics:Electric-field screening
- Physics:Electroacoustic phenomena
- Physics:Electrokinetic phenomena
- Physics:Electroluminescence
- Physics:Electromechanical coupling coefficient
- Physics:Electron cyclotron resonance
- Physics:Electron heat capacity
- Physics:Electron tomography
- Physics:Electron-hole droplets
- Physics:Electronic entropy
- Physics:Electronic specific heat
- Physics:Enhancement or quenching of QD, Q-wire and QW radiations
- Physics:Exact diagonalization
- Physics:Extended X-ray absorption fine structure
F
- Physics:Fermi energy
- Physics:Fermi liquid theory
- Physics:Fermi point
- Physics:Fermi surface
- Physics:Fermionic condensate
- Physics:Ferroelectret
- Physics:Ferroics
- Physics:Fine electronic structure
- Physics:Flexoelectricity
- Physics:Flowability
- Physics:Fluorescence intermittency in colloidal nanocrystals
- Physics:Forouhi–Bloomer model
- Physics:Förster coupling
- Physics:Free electron model
- Physics:Freeze thaw resistance
- Physics:Friedel oscillations
- Physics:Frozen mirror image method
G
H
I
J
K
- Physics:Kadowaki–Woods ratio
- Physics:Kagome metal
- Physics:Keldysh formalism
- Physics:Kelvin probe force microscope
- Physics:Kibble–Zurek mechanism
- Physics:Kohn anomaly
- Physics:Kohn effect
- Physics:Kohn–Luttinger superconductivity
- Physics:Kondo insulator
- Physics:Kondo model
- Physics:Krausser–Samwer–Zaccone equation
- Physics:Kugel–Khomskii coupling
L
- Physics:Lamb–Mössbauer factor
- Physics:Lambda transition
- Physics:Lanthanum aluminate-strontium titanate interface
- Physics:Laughlin wavefunction
- Physics:Lifshitz Theory of Van der Waals Force
- Physics:Lifshitz theory of van der Waals force
- Physics:Lindemann index
- Physics:Lindhard theory
- Physics:Linearized augmented-plane-wave method
- Physics:Liquefaction
- Physics:Little–Parks effect
- Physics:Local density of states
- Physics:Lorentz oscillator model
- Physics:Luttinger liquid
- Physics:Luttinger's theorem
- Physics:Luttinger–Kohn model
- Physics:Luttinger–Ward functional
- Physics:Lyddane–Sachs–Teller relation
M
- Physics:Macroscopic quantum phenomena
- Physics:Magnetic 2D materials
- Physics:Magnetic refrigeration
- Physics:Magnetic topological insulator
- Physics:Magnetic van der Waals materials
- Physics:Magnetocapacitance
- Physics:Magnetoelectric effect
- Physics:Materials physics
- Physics:Materials science
- Physics:Maximum density
- Physics:Mesoscopic physics
- Physics:Metal–insulator transition
- Physics:Metastable inner-shell molecular state
- Physics:Metastate
- Physics:Mimicry of spin-liquid-by-disorder
- Physics:Mitscherlich's law
- Physics:Mode coupling
- Physics:Mössbauer effect
- Physics:Movable cellular automaton
- Physics:Muffin-tin approximation
- Physics:Multiferroics
P
- Physics:Pair distribution function
- Physics:Particle in a one-dimensional lattice
- Physics:Path integrals in polymer science
- Physics:Pendellösung
- Physics:Periodic table of topological invariants
- Physics:Phase (matter)
- Physics:Phase separation
- Physics:Phenomenology
- Physics:Phonon noise
- Physics:Phonon scattering
- Physics:Phonovoltaic
- Physics:Photo-reflectance
- Physics:Photoconductivity
- Physics:Photoionisation cross section
- Physics:Photomagnetism
- Physics:Photon-induced electric field poling
- Physics:Photonic crystal
- Physics:Pickering emulsion
- Physics:Piezoelectricity
- Physics:Piezophototronics
- Physics:Poole–Frenkel effect
- Physics:Projector augmented wave method
- Physics:Pseudo Jahn–Teller effect
