Category:Condensed matter physics
 | 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 19 subcategories, out of 38 total.
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P
- Plasmonics (36 P)
Q
- Quantum magnetism (20 P)
R
S
- Superfluidity (38 P)
W
- Water physics (9 P)
Σ
- Condensed matter stubs (102 P)
Pages in category "Condensed matter physics"
The following 136 pages are in this category, out of approximately 292 total. This list may not reflect recent changes.
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- Pair distribution function
- Particle in a one-dimensional lattice
- Path integrals in polymer science
- Pendellösung
- Periodic table of topological insulators and topological superconductors
- Phase (matter)
- Phase separation
- Phenomenology (physics)
- Phonon noise
- Phonon scattering
- Phonovoltaic
- Photo-reflectance
- Photoconductivity
- Photoionisation cross section
- Photomagnetism
- Photon-induced electric field poling
- Photonic crystal
- Pickering emulsion
- Piezoelectricity
- Piezophototronics
- Poole–Frenkel effect
- Projector augmented wave method
- Pseudo Jahn–Teller effect
Q
- Quantum acoustics
- Quantum boomerang effect
- Quantum critical point
- Quantum dimer magnet
- Quantum dimer models
- Quantum dissipation
- Quantum dot single-photon source
- Quantum double model
- Quantum fluid
- Quantum Hall effect
- Quantum materials
- Quantum oscillations
- Quantum phase transition
- Quantum phases
- Quantum spin Hall effect
- Quantum spin liquid
- Quantum spin tunneling
- Quasi-crystals (supramolecular)
- Quasi-harmonic approximation
- Quasicrystal
- Quasiparticle
R
S
- Schottky anomaly
- Schottky effect
- Scintillation (physics)
- Second-order Jahn-Teller distortion in main-group element compounds
- Secondary emission
- Sedimentation potential
- Semicircle law (quantum Hall effect)
- Semimetal
- Shpolskii matrix
- Single-atom transistor
- Single-layer materials
- Single-molecule magnet
- Slave boson
- Soft matter
- Solid-state physics
- Spaser
- Spherical basis
- Spin density wave
- Spin gapless semiconductor
- Spin Hall effect
- Spin ice
- Spin Nernst Effect
- Spin–charge separation
- Spinodal decomposition
- Spontelectrics
- State of matter
- Stopping and Range of Ions in Matter
- Stopping power (particle radiation)
- Strength of materials
- String-net liquid
- Strongly correlated material
- Structure of liquids and glasses
- Su–Schrieffer–Heeger model
- Super Tonks–Girardeau gas
- Supercooling
- Superexchange
- Superlattice
- Superlubricity
- Supersolid
- Superstructure (condensed matter)
- Surface energy
- Surface photovoltage
- Surface reconstruction
- Swift heavy ion
- Symmetry-protected topological order
T
- Tauc–Lorentz model
- Tensor operator
- Thermal conductance quantum
- Thermal effective mass
- Thomas–Fermi screening
- Thouless energy
- Threshold displacement energy
- Time crystal
- Tonks–Girardeau gas
- Topological degeneracy
- Topological entropy in physics
- Topological insulator
- Topological insulator growth
- Topological order
- Toric code
- Total position spread
- Tube-based nanostructure
- Two-dimensional semiconductor