User:HhhipBot/Physics pages/Condensed

This page lists physics articles related to condensed matter physics, thermodynamics and plasma physics. It also contains hidden links to the corresponding talk pages and is designed to serve as a project watchlist through its related changes.

Tagged pages in tagged categories

 * 3D cell culturing by magnetic levitation
 * 4GLS
 * A Boy and His Atom
 * A15 phases
 * AKLT Model
 * ALBA (synchrotron)
 * ANNNI model
 * APEXC
 * ASTRID
 * Abelian sandpile model
 * Ablation
 * Abraham–Minkowski controversy
 * Abrikosov vortex
 * Absolute hot
 * Absolute zero
 * Absorption refrigerator
 * Acceptor (semiconductors)
 * Acoustic dispersion
 * Acoustic droplet ejection
 * Acoustic droplet vaporization
 * Acoustic emission
 * Acoustic metamaterials
 * Acoustoelastic effect
 * Active matter
 * AdS/CMT correspondence
 * Adiabatic conductivity
 * Adiabatic flame temperature
 * Adiabatic invariant
 * Adiabatic process
 * Adiabatic shear band
 * Advanced Light Source
 * Advanced Photon Source
 * Advanced composite materials (engineering)
 * Advection
 * Aeolipile
 * Aeroelasticity
 * Aerosol
 * Air bearing
 * Air separation
 * Airglow
 * Alcator C-Mod
 * Alfvén wave
 * Alkali-metal thermal to electric converter
 * Alpha factor
 * Aluminium gallium phosphide
 * Ambipolar diffusion
 * Amorphous solid
 * Ampere-turn
 * Anderson impurity model
 * Anderson localization
 * Anderson orthogonality theorem
 * Anderson's rule
 * Andreev reflection
 * Angle-resolved photoemission spectroscopy
 * Anisothermal plasma
 * Annular dark-field imaging
 * Annular fin
 * Anomalous X-ray scattering
 * Anomalous photovoltaic effect
 * Antenna noise temperature
 * Anti-phase domain
 * Anti-reflective coating
 * Anti-scratch coating
 * Antiferroelectricity
 * Antiferromagnetism
 * Antimatter gravity measurement
 * Antisymmetric exchange
 * Anton-Schmidt equation of state
 * Applications of the Stirling engine
 * Arago's rotations
 * Archer's paradox
 * Arrott plot
 * Arrow of time
 * Artificial dielectrics
 * Asbestiform
 * Asperity (materials science)
 * Astrophysical X-ray source
 * Astrophysical jet
 * Astrophysical plasma
 * Atmosphere of Earth
 * Atmospheric dynamo
 * Atmospheric pressure
 * Atmospheric pressure discharge
 * Atmospheric sounding
 * Atmospheric thermodynamics
 * Atmospheric-pressure plasma
 * Atom probe
 * Atomic diffusion
 * Atomic force microscopy
 * Atomic packing factor
 * Aurora
 * Australian Synchrotron
 * Avrami equation
 * Axial ratio
 * Azeotrope
 * BBGKY hierarchy
 * BCS theory
 * BCS: 50 Years
 * BESSY
 * Backdraft
 * Ball lightning
 * Ballistic conduction
 * Ballooning instability
 * Band bending
 * Band diagram
 * Band gap
 * Band mapping
 * Band offset
 * Barkhausen effect
 * Barnett effect
 * Beale number
 * Beamline
 * Behavior of nuclear fuel during a reactor accident
 * Bejan number
 * Bekenstein bound
 * Belousov–Zhabotinsky reaction
 * Bending moment
 * Bergmann's rule
 * Berry connection and curvature
 * Beta (plasma physics)
 * Bethe ansatz
 * Bethe lattice
 * Betti's theorem
 * Bi-isotropic material
 * Biaxial nematic
 * Biexciton
 * Bilayer
 * Bimetallic strip
 * Bimoment
 * Binary collision approximation
 * Binary entropy function
 * Binder parameter
 * Biological thermodynamics
 * Biot number
 * Birch–Murnaghan equation of state
 * Bismuth strontium calcium copper oxide
 * Bjerrum defect
 * Black body
 * Black silicon
 * Black-body radiation
 * Blackett effect
 * Bloch wave
 * Bloch wave – MoM method
 * Bloch-Grüneisen temperature
 * Bohm diffusion
 * Bohr magneton
 * Bohr–van Leeuwen theorem
 * Boiling point
 * Boltzmann constant
 * Boltzmann relation
 * Boltzmann's entropy formula
 * Bonding in solids
 * Born–von Karman boundary condition
 * Borrmann effect
 * Bose gas
 * Bose-Einstein condensation of excitons
 * Bosenova
 * Bose–Hubbard model
 * Boson
 * Bosonization
 * Boundary friction
 * Boundary layer
 * Bow shock
 * Bowen ratio
 * Boyle temperature
 * Bragg plane
 * Bragg's law
 * Bravais lattice
 * Brayton cycle
 * Bremsstrahlung
 * Brewster angle microscope
 * Bridgman's thermodynamic equations
 * Brillouin and Langevin functions
 * Brillouin zone
 * Brinkman number
 * Brittleness
 * Brownian motor
 * Brownian ratchet
 * Brunt–Väisälä frequency
 * Brus equation
 * Buckling
 * Bulk temperature
 * Burgers vector
 * Burstein–Moss effect
 * Caloric theory
 * Calorie
 * Calorimetry
 * Cambridge Structural Database
 * Canadian Light Source
 * Canadian Synchrotron Radiation Facility
 * Capacitively coupled plasma
 * Carbon nanofoam
 * Carnot cycle
 * Carnot heat engine
 * Carnot's theorem (thermodynamics)
 * Carrier generation and recombination
 * Cassie's law
 * Cathodoluminescence
 * Cauchy stress tensor
 * Cauchy–Born rule
 * Cavity method
 * CeCoIn5
 * Cellular Potts model
 * Center for Integrated Plasma Studies
 * Charge carrier
 * Charge density wave
 * Charge ordering
 * Charge qubit
 * Charge transfer insulators
 * Charge-carrier density
 * Charged particle
 * Chemical beam epitaxy
 * Chemical force microscopy
 * Chemical potential
 * Chiral Potts model
 * Chirality (electromagnetism)
 * Chromo–Weibel instability
 * Churchill–Bernstein equation
 * Clapeyron's theorem (elasticity)
 * Classical Heisenberg model
 * Classical XY model
 * Clausius theorem
 * Clausius–Clapeyron relation
 * Clausius–Duhem inequality
 * Close-packing of equal spheres
 * Closed system
 * Clumping factor
 * Coefficient of performance
 * Coercivity
 * Coffee ring effect
 * Coherent diffraction imaging
 * Cohesion (chemistry)
 * Cole–Cole equation
 * Collimator
 * Collision cascade
 * Collisionality
 * Colloid
 * Colloid vibration current
 * Color superconductivity
 * Colored-particle-in-cell
 * Color–flavor locking
 * Colossal magnetoresistance
 * Columnar phase
 * Combustibility
 * Compatibility (mechanics)
 * Composite fermion
 * Compressed magnetic flux generator
 * Compressibility
 * Compression (physics)
 * Computational chemical methods in solid-state physics
 * Condensation
 * Condensed matter physics
 * Conductance quantum
 * Conduction band
 * Conformational entropy
 * Conjugate variables (thermodynamics)
 * Conservation of energy
 * Constant-energy surface
 * Constitutive equation
 * Contact angle
 * Contact mechanics
 * Contact resistance
 * Continuum mechanics
 * Control volume
 * Convection
 * Convective available potential energy
 * Convective inhibition
 * Convective instability
 * Conventional superconductor
 * Cooling curve
 * Cooper pair
 * Core–shell semiconductor nanocrystal
 * Cornell Laboratory for Accelerator-based Sciences and Education
 * Corona
 * Corona discharge
 * Coronal radiative losses
 * Coronal seismology
 * Cotton–Mouton effect
 * Cottrell atmosphere
 * Coulomb blockade
 * Coulomb collision
 * Coulomb explosion
 * Coulomb gap
 * Counter-scanning
 * Coupled-wave method
 * Covariant derivative
 * Critical dimension
 * Critical exponent
 * Critical field
 * Critical heat flux
 * Critical ionization velocity
 * Critical line (thermodynamics)
 * Critical opalescence
 * Critical point (thermodynamics)
 * Critical radius
 * Critical relative humidity
 * Critical resolved shear stress
 * Critical variable
 * Crookes radiometer
 * Crooks fluctuation theorem
 * Cross entropy
 * Cryocooler
 * Cryoelectronics
 * Cryogenic processor
 * Cryogenic storage dewar
 * Cryogenics
 * Cryophorus
 * Cryoscopic constant
 * Crystal
 * Crystal growth
 * Crystal model
 * Crystal momentum
 * Crystal monochromator
 * Crystal optics
 * Crystal structure
 * Crystal structure of boron-rich metal borides
 * Crystal structure prediction
 * Crystal system
 * Crystal twinning
 * Crystallinity
 * Crystallization
 * Crystallographic database
 * Crystallographic defect
 * Crystallographic point group
 * Crystallographic restriction theorem
 * Crystallography
 * Cu-Pt type ordering in III-V semiconductor
 * Cubic crystal system
 * Curie constant
 * Curie temperature
 * Curie's law
 * Curie–Weiss law
 * Current sheet
 * Cyclotron radiation
 * Cyclotron resonance
 * Czochralski process
 * DESY
 * Dalton's law
 * Dangling bond
 * Daresbury Laboratory
 * David Adler Lectureship Award in the Field of Materials Physics
 * De Haas–van Alphen effect
 * Debrecen Heliophysical Observatory
 * Debye frequency
 * Debye model
 * Debye sheath
 * Debye–Waller factor
 * Decay heat
 * Deep-level trap
 * Deformation (engineering)
 * Deformation (mechanics)
 * Degaussing
 * Degenerate matter
 * Degree of ionization
 * Demagnetizing field
 * Dense plasma focus
 * Density of air
 * Density of states
 * Departure function
 * Depletion force
 * Depolarization ratio
 * Deposition (phase transition)
 * Detailed balance
 * Dew point
 * Dew point depression
 * Diamagnetism
 * Diamond Light Source
 * Diamond anvil cell
 * Diamond cubic
 * Dichroic filter
 * Dielectric
 * Dielectric complex reluctance
 * Dielectric heating
 * Dielectric reluctance
 * Dielectric spectroscopy
 * Dielectrophoresis
 * Diesel cycle
 * Difference density map
 * Differential entropy
 * Differential scanning calorimetry
 * Diffraction standard
 * Diffuse element method
 * Diffusing-wave spectroscopy
 * Diffusion current
 * Diffusion damping
 * Diffuson
 * Digital image correlation
 * Dilatant
 * Diocotron instability
 * Diode-pumped solid-state laser
 * Direct and indirect band gaps
 * Direct-current discharge
 * Directed percolation
 * Discotic liquid crystal
 * Disgregation
 * Disk laser
 * Dispersive adhesion
 * Displacement field (mechanics)
 * Dissipation
 * Dissipative particle dynamics
 * Dissipative system
 * Distortion free energy density
 * Distributed Bragg reflector laser
 * Distributed feedback laser
 * Domain wall (magnetism)
 * Donor (semiconductors)
 * Dopant
 * Doping (semiconductor)
 * Doppler cooling limit
 * Double layer forces
 * Drift current
 * Drift velocity
 * Drinking bird
 * Drude model
 * Dry-bulb temperature
 * Ductility
 * Dufour effect
 * Duhem–Margules equation
 * Dukhin number
 * Dulong–Petit law
 * Duoplasmatron
 * Dusty plasma
 * Dyakonov Surface Waves
 * Dynamic equilibrium
 * Dynamic modulus
 * Dynamic structure factor
 * Dynamical mean field theory
 * Dynamical theory of diffraction
 * Dynamo theory
 * Dühring's rule
 * ELETTRA
 * Earth's internal heat budget
 * Earth's magnetic field
 * Ebullioscopic constant
 * Eckert number
 * Economizer
 * Ectropy
 * Edge-localized mode
 * Effective field theory
 * Effective mass (solid-state physics)
 * Effective medium approximations
 * Effective temperature
 * Ehrenfest equations
 * Eigenstate thermalization hypothesis
 * Elastic recoil detection
 * Elastica theory
 * Electret
 * Electric charge
 * Electric discharge
 * Electric displacement field
 * Electric field gradient
 * Electric spark
 * Electric susceptibility
 * Electric-field screening
 * Electrical resistivity and conductivity
 * Electro-absorption modulator
 * Electrocaloric effect
 * Electroceramics
 * Electrochemical gradient
 * Electrodeless plasma excitation
 * Electrodeless plasma thruster
 * Electrodynamic suspension
 * Electroluminescence
 * Electromagnetic absorbers
 * Electromechanical coupling coefficient
 * Electromigration
 * Electron
 * Electron Microscopy Center
 * Electron beam ion trap
 * Electron beam physical vapor deposition
 * Electron crystallography
 * Electron cyclotron resonance
 * Electron hole
 * Electron liquid
 * Electron mobility
 * Electron spiral toroid
 * Electron temperature
 * Electron wake
 * Electron-hole droplets
 * Electronic band structure
 * Electrorotation
 * Electrostatic discharge
 * Electrostatic ion thruster
 * Electrostriction
 * Electrothermal instability
 * Emagram
 * Emissivity
 * Empty lattice approximation
 * Endergonic
 * Endoreversible thermodynamics
 * Endothermic process
 * Energy applications of nanotechnology
 * Energy carrier
 * Energy conversion efficiency
 * Energy transfer upconversion
 * Enhancement or quenching of QD, Q-wire and QW radiations
 * Entanglement distillation
 * Enthalpy of fusion
 * Enthalpy–entropy chart
 * Entropic explosion
 * Entropic force
 * Entropic gravity
 * Entropy
 * Entropy (arrow of time)
 * Entropy (astrophysics)
 * Entropy (classical thermodynamics)
 * Entropy (energy dispersal)
 * Entropy (information theory)
 * Entropy (order and disorder)
 * Entropy (statistical thermodynamics)
 * Entropy and life
 * Entropy in thermodynamics and information theory
 * Entropy of entanglement
 * Entropy of fusion
 * Entropy of mixing
 * Entropy of vaporization
 * Environment (systems)
 * Epitaxy
 * Epsilon-negative material
 * Equation of state
 * Equipartition theorem
 * Equivalence of direct radiation
 * Equivalent potential temperature
 * Equivalent temperature
 * Er:YAG laser
 * Ericsson cycle
 * Ettingshausen effect
 * Euler–Bernoulli beam theory
 * European Solar Telescope
 * European Synchrotron Radiation Facility
 * Evanescent wave
 * Evaporation (deposition)
 * Evershed effect
 * Ewald's sphere
 * Exchange bias
 * Excitation temperature
 * Excitator Model
 * Exciton
 * Exergonic process
 * Exergy efficiency
 * Exothermic process
 * Expander cycle
 * Extended X-ray absorption fine structure
 * Extended irreversible thermodynamics
 * Extremal principles in non-equilibrium thermodynamics
 * FOMP
 * Faraday balance
 * Faraday cup
 * Faraday effect
 * Fast ion conductor
 * Fault current limiter
 * Feedback-controlled electromigration
 * Felicity effect
 * Fermi contact interaction
 * Fermi energy
 * Fermi gas
 * Fermi level
 * Fermi liquid theory
 * Fermi point
 * Fermi surface
 * Fermi surface of superconducting cuprates
 * Fermion doubling
 * Fermionic condensate
 * Ferrimagnetism
 * Ferroelectret
 * Ferroelectricity
 * Ferrofluid
 * Ferroics
 * Ferromagnetic resonance
 * Ferromagnetism
 * Feynman checkerboard
 * Fiber laser
 * Figure-8 laser
 * Film temperature
 * Fin (extended surface)
 * Finite element method
 * Finite strain theory
 * Fire point
 * First law of thermodynamics
 * Flame rectification
 * Flammability
 * Flash freezing
 * Flat lens
 * Flexural rigidity
 * Flexural strength
 * Float-zone silicon
 * Flory–Rehner equation
 * Flow plasticity theory
 * Flow velocity
 * Fluctuation theorem
 * Fluctuation-dissipation theorem
 * Fluid dynamics
 * Fluidyne engine
 * Fluorescence intermittency in colloidal nanocrystals
 * Flux method
 * Flux pinning
 * Flux quantization
 * Fluxon
 * Force between magnets
 * Force field (chemistry)
 * Force-free magnetic field
 * Forschungszentrum Jülich
 * Fossil stellar magnetic field
 * Fractional quantum Hall effect
 * Frank Isakson Prize for Optical Effects in Solids
 * Frank Kasper phases
 * Free convective layer
 * Free electron model
 * Free entropy
 * Free expansion
 * Freeze thaw resistance
 * Freezing
 * Frenkel defect
 * Friction
 * Frictional contact mechanics
 * Frozen mirror image method
 * Fréedericksz transition
 * Fugacity
 * Fulde–Ferrell–Larkin–Ovchinnikov phase
 * Fundamental thermodynamic relation
 * Fusor
 * Förster coupling
 * GENERIC formalism
 * GYRO
 * Gallium arsenide phosphide
 * Gallium indium arsenide antimonide phosphide
 * Galvanoluminescence
 * Garshelis effect
 * Gas
 * Gas constant
 * Gas focusing
 * Gas immersion laser doping
 * Gas laws
 * Gauss's law for magnetism
 * Generalized Lagrangian mean
 * Generalized Maxwell model
 * Geometric phase
 * Geometrical frustration
 * Geothermal heat pump
 * Giant magnetoresistance
 * Gibbs algorithm
 * Gibbs paradox
 * Gibbs–Helmholtz equation
 * Gibbs–Thomson equation
 * Ginsberg's theorem
 * Ginzburg–Landau theory
 * Glass transition
 * Glide plane
 * Goff–Gratch equation
 * Gold
 * Goodman relation
 * Goodness factor
 * Gough–Joule effect
 * Gouy balance
 * Grand potential
 * Granular material
 * Graphane
 * Graphene
 * Grashof number
 * Green–Kubo relations
 * Gregori Aminoff Prize
 * Gross generation
 * Gross–Pitaevskii equation
 * Grüneisen parameter
 * Guiding center
 * Gunn–Peterson trough
 * Gyration tensor
 * Gyrokinetic ElectroMagnetic
 * Gyroradius
 * H-1NF
 * H-theorem
 * Half-metal
 * Hall effect
 * Hall effect thruster
 * Halpin–Tsai model
 * Hamiltonian lattice gauge theory
 * Hampson–Linde cycle
 * Hanle effect
 * Harris functional
 * Hasegawa–Mima equation
 * Havriliak–Negami relaxation
 * Haynes–Shockley experiment
 * Heat
 * Heat capacity
 * Heat capacity ratio
 * Heat current
 * Heat death of the universe
 * Heat engine
 * Heat equation
 * Heat flux
 * Heat kernel
 * Heat loss due to linear thermal bridging
 * Heat pump
 * Heat pump and refrigeration cycle
 * Heat spreader
 * Heat transfer
 * Heat transfer coefficient
 * Heat transfer physics
 * Heavy fermion
 * Heisenberg model (quantum)
 * Heisler Chart
 * Helically Symmetric Experiment
 * Helimagnetism
 * Heliophysics Science Division
 * Heliosphere
 * Heliospheric current sheet
 * Helium atom scattering
 * Helium-3 refrigerator
 * Hellmann–Feynman theorem
 * Henry's law
 * Hermann–Mauguin notation
 * Heteroazeotrope
 * Heterojunction
 * Heusler alloy
 * Hexagonal crystal system
 * Higgs boson
 * Higgs mechanism
 * High beta fusion reactor
 * High pressure
 * High-efficiency hybrid cycle
 * High-energy X-rays
 * High-temperature superconductivity
 * History of X-ray astronomy
 * History of electromagnetic theory
 * History of entropy
 * History of heat
 * History of materials science
 * History of superconductivity
 * History of thermodynamics
 * Hofstadter's butterfly
 * Homentropic flow
 * Homes's law
 * Homojunction
 * Hooke's law
 * Hot-carrier injection
 * Hubbard model
 * Humidity
 * Hybrid silicon laser
 * Hydraulic diameter
 * Hygrometer
 * Hyperelastic material
 * Hyperspectral imaging
 * Hypsometric equation
 * Hysteresis
 * IBM (atoms)
 * IEEE Journal of Quantum Electronics
 * IEEE Transactions on Electron Devices
 * IEEE Transactions on Semiconductor Manufacturing
 * IMPACT
 * Ideal gas
 * Ideal gas law
 * Ideal solution
 * Ideally hard superconductor
 * Impact ionization
 * Indium arsenide antimonide phosphide
 * Indium gallium arsenide
 * Indium gallium arsenide phosphide
 * Indium gallium phosphide
 * Indium nitride
 * Inductively coupled plasma
 * Inexact differential
 * Infinitesimal strain theory
 * Insertion device
 * Instability
 * Institute for Plasma Research
 * Instituto de Plasmas e Fusão Nuclear
 * Intel Technology Journal
 * Intense Pulsed Neutron Source
 * Intensive and extensive properties
 * Interband cascade laser
 * Interface and colloid science
 * Intermolecular force
 * Internal energy
 * International Centre for Synchrotron-Light for Experimental Science Applications in the Middle East
 * International Liquid Crystal Society
 * International Standard Atmosphere
 * Interplanetary medium
 * Intrinsic semiconductor
 * Introduction to entropy
 * Inverse Faraday effect
 * Inverse magnetostrictive effect
 * Inversion temperature
 * Ion
 * Ion acoustic wave
 * Ion beam
 * Ion cyclotron resonance
 * Ion track
 * Ion wind
 * Ionized-air glow
 * Irreversible process
 * Isenthalpic process
 * Isentropic nozzle flow
 * Isentropic process
 * Ising critical exponents
 * Ising model
 * Island growth
 * Isobaric process
 * Isochoric process
 * Isolated system
 * Isomorphism (crystallography)
 * Isothermal process
 * J1 J2 model
 * Jamming (physics)
 * Janus particles
 * Jarzynski equality
 * Jellium
 * Jiles-Atherton model
 * Jog (dislocations)
 * Johnson–Holmquist damage model
 * Joint entropy
 * Jordan–Wigner transformation
 * Josephson effect
 * Josephson phase
 * Joule heating
 * Joule–Thomson effect
 * Junction temperature
 * KT (energy)
 * Kadowaki–Woods ratio
 * Kalina cycle
 * Kelvin probe force microscope
 * Kelvin–Planck statement
 * Kelvin–Voigt material
 * Kinetic inductance
 * Kinetic theory
 * Kink instability
 * Kirchhoff's law of thermal radiation
 * Kirchhoff–Love plate theory
 * Kleemenko cycle
 * Knudsen cell
 * Kohn anomaly
 * Kohn effect
 * Kondo effect
 * Kondo model
 * Kopp's law
 * Kosterlitz–Thouless transition
 * Kramers–Kronig relations
 * Kramers–Wannier duality
 * Kröger–Vink notation
 * Kubo Gap
 * Kugel–Khomskii coupling
 * Kullback–Leibler divergence
 * Kuramoto model
 * Kurchatov Center for Synchrotron Radiation and Nanotechnology
 * Laboratório Nacional de Luz Síncrotron
 * Lakshmi Kantam
 * Lambda point
 * Lambda point refrigerator
 * Lambda transition
 * Lamb–Mössbauer factor
 * Landau damping
 * Landau theory
 * Landauer formula
 * Landauer's principle
 * Landau–Lifshitz–Gilbert equation
 * Langmuir probe
 * Langmuir–Blodgett film
 * Lanthanum aluminate-strontium titanate interface
 * Lanthanum barium copper oxide
 * Lapse rate
 * Large Plasma Device
 * Larson–Miller relation
 * Laser ablation
 * Laser ablation synthesis in solution
 * Laser cooling
 * Laser diode
 * Laser diode rate equations
 * Laser printing of single nanoparticles
 * Laser-heated pedestal growth
 * Latent heat
 * Latent internal energy
 * Lateral spin valve
 * Lattice Boltzmann methods
 * Lattice QCD
 * Lattice constant
 * Lattice density functional theory
 * Lattice field theory
 * Lattice gauge theory
 * Lattice model (physics)
 * Laughlin wavefunction
 * Laws of thermodynamics
 * Leidenfrost effect
 * Lennard-Jones potential
 * Lenoir cycle
 * Leslie cube
 * Level of free convection
 * Levitated dipole
 * Liesegang rings
 * Lifted condensation level
 * Ligand K-edge
 * Lightning
 * Limit load (physics)
 * Lindhard theory
 * Linear acetylenic carbon
 * Linear elasticity
 * Liquefaction
 * Liquefaction of gases
 * Liquid
 * Liquid crystal
 * Liquid crystal polymer
 * Liquid helium
 * Liquid hydrogen
 * Liquid oxygen
 * Liquid water path
 * Liquid-crystal laser
 * Liquidus
 * List of hydrodynamic instabilities named after people
 * List of materials properties
 * List of plasma (physics) articles
 * List of quasiparticles
 * List of semiconductor materials
 * List of states of matter
 * List of synchrotron radiation facilities
 * List of thermal conductivities
 * List of waves named after people
 * Lithium triborate
 * Little–Parks effect
 * Local density of states
 * Local oxidation nanolithography
 * Localized surface plasmon
 * Lockin effect
 * London equations
 * London penetration depth
 * Long Josephson junction
 * Loop entropy
 * Lorentz force velocimetry
 * Loschmidt's paradox
 * Lotus effect
 * Low-energy electron diffraction
 * Low-k dielectric
 * Lundquist number
 * Luttinger liquid
 * Luttinger parameter
 * Luttinger's theorem
 * Luttinger–Kohn model
 * MAX IV
 * MAX-lab
 * MIT Plasma Science and Fusion Center
 * Macroscopic quantum phenomena
 * Madelung constant
 * Magnesium diboride
 * Magnet
 * Magnetic anisotropy
 * Magnetic circuit
 * Magnetic complex impedance
 * Magnetic diffusivity
 * Magnetic dipole
 * Magnetic dipole transition
 * Magnetic domain
 * Magnetic energy
 * Magnetic evaporative cooling
 * Magnetic field
 * Magnetic field viewing film
 * Magnetic flux
 * Magnetic flux quantum
 * Magnetic force microscope
 * Magnetic helicity
 * Magnetic impurity
 * Magnetic ionic liquid
 * Magnetic levitation
 * Magnetic moment
 * Magnetic monopole
 * Magnetic nanoparticles
 * Magnetic potential
 * Magnetic pressure
 * Magnetic reconnection
 * Magnetic refrigeration
 * Magnetic reluctance
 * Magnetic resonance force microscopy
 * Magnetic semiconductor
 * Magnetic separation
 * Magnetic structure
 * Magnetic susceptibility
 * Magnetic translation
 * Magnetism
 * Magnetization
 * Magnetization dynamics
 * Magnetization reversal by circularly polarized light
 * Magneto-optic Kerr effect
 * Magneto-optic effect
 * Magnetoception
 * Magnetochemistry
 * Magnetocrystalline anisotropy
 * Magnetogravity wave
 * Magnetohydrodynamic drive
 * Magnetohydrodynamic generator
 * Magnetohydrodynamics
 * Magnetomechanical effects
 * Magnetomotive force
 * Magnetopause
 * Magnetoresistance
 * Magnetosphere
 * Magnetosphere chronology
 * Magnetosphere of Jupiter
 * Magnetosphere particle motion
 * Magnetostatics
 * Magnetostriction
 * Magnonics
 * Majumdar–Ghosh Model
 * Marangoni number
 * Marklund convection
 * Mason equation
 * Material physics
 * Material properties (thermodynamics)
 * Materials Research Science and Engineering Centers
 * Materials science
 * Mattis–Bardeen theory
 * Max Planck Institute of Plasma Physics
 * Maximum density
 * Maximum entropy probability distribution
 * Maximum entropy thermodynamics
 * Maxwell material
 * Maxwell relations
 * Maxwell's demon
 * Maxwell's thermodynamic surface
 * Maxwell–Wagner–Sillars polarization
 * McCumber relation
 * Mean radiant temperature
 * Measure-preserving dynamical system
 * Mechanical equivalent of heat
 * Mechanical metamaterials
 * Mechanosynthesis
 * Meissner effect
 * Melting
 * Melting point
 * Membrane analogy
 * Membrane theory of shells
 * Mesocrystal
 * Mesogen
 * Mesoscopic physics
 * Metal K-edge
 * Metal L-edge
 * Metal-induced gap states
 * Metal–insulator transition
 * Metamagnetism
 * Metamaterial
 * Metamaterial absorber
 * Metamaterial antenna
 * Metamaterial cloaking
 * Metamaterials (journal)
 * Metamaterials Handbook
 * Metamaterials: Physics and Engineering Explorations
 * Method of images
 * Micro-pulling-down
 * Microfluidics
 * Micromagnetics
 * Microrheology
 * Microviscosity
 * Mictomagnetism
 * Miller index
 * Mineral physics
 * Minimum total potential energy principle
 * Mirror furnace
 * Mitscherlich's law
 * Mixed/dual cycle
 * Mode coupling
 * Model solid approximation
 * Molecular beam epitaxy
 * Molecular machine
 * Molecular mechanics
 * Momentum
 * Momentum transfer
 * Monoclinic crystal system
 * Monolayer
 * Monster (physics)
 * Mooney–Rivlin solid
 * Motive power
 * Mott insulator
 * Mott transition
 * Mpemba effect
 * Mu-metal
 * Muffin-tin approximation
 * Multi-wavelength anomalous dispersion
 * Multiferroics
 * Multipactor effect
 * Multiple isomorphous replacement
 * Mössbauer effect
 * N-vector model
 * Nambu–Jona-Lasinio model
 * Nano-PSI
 * Nanochannel glass materials
 * Nanocircuitry
 * Nanoelectromechanical systems
 * Nanoelectronics
 * Nanoengineering
 * Nanofluidic circuitry
 * Nanofluidics
 * Nanoindenter
 * Nanoionics
 * Nanomagnet
 * Nanometrology
 * Nanoparticle
 * Nanophotonics
 * Nanoscopic scale
 * Nanoshell
 * Nanotechnology
 * Nanothermometry
 * Nanotribology
 * Narrow-gap semiconductor
 * National Centre for Physics
 * National Compact Stellarator Experiment
 * National Spherical Torus Experiment
 * National Synchrotron Light Source
 * National Synchrotron Light Source II
 * National Synchrotron Radiation Research Center
 * Natural remanent magnetization
 * GdVO4
 * YAG laser
 * YCOB
 * Nearly free electron model
 * Negative index metamaterials
 * Negative luminescence
 * Negative refraction
 * Negative temperature
 * Negative thermal expansion
 * Negentropy
 * Nematicon
 * Neo-Hookean solid
 * Neodymium magnet
 * Neodymium-doped yttrium lithium fluoride
 * Neodymium-doped yttrium orthovanadate
 * Nernst effect
 * Net generation
 * Neumann's law
 * Neutron magnetic moment
 * Neutron scattering
 * Neutron temperature
 * Nielsen-Ninomiya theorem
 * Nimrod (synchrotron)
 * Nitrogen-vacancy center
 * Non-Newtonian fluid
 * Non-contact atomic force microscopy
 * Non-equilibrium thermodynamics
 * Non-ionizing radiation
 * Non-radiative life time
 * Nonequilibrium Gas and Plasma Dynamics Laboratory
 * Nonequilibrium partition identity
 * Nonextensive entropy
 * Nonlinear metamaterials
 * Nonthermal plasma
 * Noro–Frenkel law of corresponding states
 * Nuclear magnetic moment
 * Nuclear magnetic resonance crystallography
 * Nuclear magneton
 * Nuclear matter
 * Nuclear pasta
 * Nucleate boiling
 * Nusselt number
 * Néel relaxation theory
 * Néel temperature
 * Ohmic contact
 * Okorokov effect
 * Oliver E. Buckley Condensed Matter Prize
 * Onsager reciprocal relations
 * OpenFOAM
 * Optical coating
 * Optical contact bonding
 * Optical medium
 * Optical modulators using semiconductor nano-structures
 * Optical tweezers
 * Optofluidics
 * Orbital magnetization
 * Orbital motion (quantum)
 * Order and disorder (physics)
 * Orders of magnitude (entropy)
 * Orders of magnitude (magnetic field)
 * Organic photorefractive materials
 * Organic superconductor
 * Orientational glass
 * Orthorhombic crystal system
 * Ostwald–Freundlich equation
 * Otto cycle
 * Ouzo effect
 * P-wave modulus
 * PETRA
 * Pair distribution function
 * Paracrystalline
 * Paramagnetism
 * Paris' law
 * Partial pressure
 * Particle aggregation
 * Particle deposition
 * Particle in a one-dimensional lattice
 * Particle number
 * Paschen's law
 * Patterson function
 * Pauli exclusion principle
 * Pearl vortex
 * Peierls transition
 * Penning mixture
 * Penrose criterion
 * Percolation critical exponents
 * Percolation theory
 * Perfect conductor
 * Perfect thermal contact
 * Permeability (electromagnetism)
 * Permeance
 * Permittivity
 * Persistence length
 * Phase (matter)
 * Phase problem
 * Phase retrieval
 * Phase rule
 * Phase transition
 * Phase transitions and critical phenomena
 * Phason
 * Phonon drag
 * Phonon noise
 * Photoconductive atomic force microscopy
 * Photoconductivity
 * Photoelasticity
 * Photoinduced phase transitions
 * Photoionisation cross section
 * Photomagnetism
 * Photomechanical effect
 * Photon Factory
 * Photon gas
 * Photon induced electric field poling
 * Photonic crystal
 * Photonic metamaterial
 * Photoresist
 * Photo–Dember effect
 * Pi Josephson junction
 * Picotechnology
 * Piezoelectric accelerometer
 * Piezoelectricity
 * Piezoresponse force microscopy
 * Pinch (plasma physics)
 * Pinning force
 * Piola transformation
 * Plasma (physics)
 * Plasma Fusion Preface
 * Plasma Physics Laboratory (Saskatchewan)
 * Plasma acceleration
 * Plasma afterglow
 * Plasma channel
 * Plasma containment
 * Plasma cosmology
 * Plasma diagnostics
 * Plasma diffusion
 * Plasma globe
 * Plasma lamp
 * Plasma medicine
 * Plasma modeling
 * Plasma oscillation
 * Plasma parameter
 * Plasma parameters
 * Plasma propulsion engine
 * Plasma recombination
 * Plasma scaling
 * Plasma shaping
 * Plasma speaker
 * Plasma stability
 * Plasma stealth
 * Plasma surface interaction
 * Plasma torch
 * Plasma window
 * Plasmasphere
 * Plasmoid
 * Plasmon
 * Plasmonic lens
 * Plasmonic metamaterials
 * Plastic magnet
 * Plasticity (physics)
 * Poisson's ratio
 * Polar moment of inertia
 * Polariton laser
 * Polariton superfluid
 * Polarizability
 * Polarization density
 * Pole piece
 * Polyamorphism
 * Polymer brush
 * Polymer physics
 * Polymer science
 * Polymeric liquid crystal
 * Polytropic process
 * Polywell
 * Poole–Frenkel effect
 * Poromechanics
 * Portevin–Le Chatelier effect
 * Positronium
 * Potassium titanyl phosphate
 * Potential temperature
 * Potts model
 * Powder diffraction
 * Prandtl number
 * Premelting
 * Pressure
 * Pressure volume diagram
 * Pressure-fed engine
 * Primitive cell
 * Princeton Plasma Physics Laboratory
 * Principle of material objectivity
 * Principle of maximum entropy
 * Principle of minimum energy
 * Probability of occupation
 * Process function
 * Proton magnetic moment
 * Pseudo Stirling cycle
 * Pseudoelasticity
 * Pseudogap
 * Ptychography
 * Pulsed laser deposition
 * Pure bending
 * Pyroelectric crystal
 * Pyroelectricity
 * Péclet number
 * P–n junction
 * QCD matter
 * QMR effect
 * Quantum Hall effect
 * Quantum acoustics
 * Quantum cascade laser
 * Quantum critical point
 * Quantum dimer models
 * Quantum dissipation
 * Quantum dot
 * Quantum dot laser
 * Quantum fluid
 * Quantum flux parametron
 * Quantum gyroscope
 * Quantum heterostructure
 * Quantum metamaterials
 * Quantum oscillations (experimental technique)
 * Quantum paraelectricity
 * Quantum phase transition
 * Quantum phases
 * Quantum point contact
 * Quantum solid
 * Quantum solvent
 * Quantum spin liquid
 * Quantum vortex
 * Quantum well
 * Quantum well laser
 * Quantum wire
 * Quantum-mechanical explanation of intermolecular interactions
 * Quark–gluon plasma
 * Quasi Fermi level
 * Quasi-crystals (supramolecular)
 * Quasi-solid
 * Quasicrystal
 * Quasiparticle
 * Quasistatic loading
 * Quasistatic process
 * Quenched approximation
 * R-factor (crystallography)
 * RKKY interaction
 * RT (energy)
 * Radiance
 * Radiant barrier
 * Radiation material science
 * Radiative cooling
 * Radiative equilibrium
 * Radiosity (heat transfer)
 * Radius of gyration
 * Random phase approximation
 * Rankine cycle
 * Rankine–Hugoniot conditions
 * Raoult's law
 * Rapid phase transition
 * Rapid single flux quantum
 * Rashba effect
 * Rate of heat flow
 * Rayleigh law
 * Rayleigh number
 * Reciprocal lattice
 * Recuperator
 * Redlich–Kwong equation of state
 * Reduced properties
 * Reentrant superconductivity
 * Reflection high-energy electron diffraction
 * Reflectivity
 * Refractive index and extinction coefficient of thin film materials
 * Refrigeration
 * Regelation
 * Rehbinder effect
 * Reionization
 * Relative humidity
 * Relative permittivity
 * Relativistic heat conduction
 * Relativistic plasma
 * Relativistic similarity parameter
 * Remanence
 * Residual entropy
 * Residual property (physics)
 * Residual strength
 * Residual stress
 * Resolved sideband cooling
 * Resonant magnetic perturbations
 * Resonating valence bond theory
 * Response reactions
 * Retrograde condensation
 * Retrogression heat treatment
 * Reverse leakage current
 * Reversible process (thermodynamics)
 * Reynolds number
 * Reynolds transport theorem
 * Rheometry
 * Richtmyer–Meshkov instability
 * Rietveld refinement
 * Rigid-band model
 * Rigidity theory (physics)
 * Ring current
 * Rollin film
 * Room temperature
 * Room-temperature superconductor
 * Rouse model
 * Rubber elasticity
 * Ruby laser
 * Rutherford backscattering spectrometry
 * Rydberg matter
 * Rényi entropy
 * SMART-1
 * SN 1972e
 * SOLEIL
 * SPring-8
 * SQUID
 * SST-1 (tokamak)
 * Sackur–Tetrode equation
 * Saha ionization equation
 * Samarium–cobalt magnet
 * Sarfus
 * Saturation (magnetic)
 * Saturation vapor curve
 * Scale-free ideal gas
 * Scaling limit
 * Scanning SQUID microscope
 * Scanning capacitance microscopy
 * Scanning probe microscopy
 * Scanning tunneling microscope
 * Scattering from rough surfaces
 * Schmidt number
 * Schottky anomaly
 * Schottky defect
 * Schottky effect
 * Scintillation (physics)
 * Screened Poisson equation
 * Screw axis
 * Searle's bar method
 * Second law of thermodynamics
 * Second sound
 * Secondary emission
 * Seebeck coefficient
 * Seed crystal
 * Seismic metamaterials
 * Selected area diffraction
 * Self-focusing
 * Self-information
 * Semiconductor
 * Semiconductor Science and Technology
 * Semiconductor laser theory
 * Semiconductor optical gain
 * Semiconductor ring laser
 * Semimetal
 * Sendust
 * Sensible heat
 * Serpentine geometry plasma actuator
 * Shakedown (continuum mechanics)
 * Shallow donor
 * Shanghai Synchrotron Radiation Facility
 * Shear flow
 * Shear modulus
 * Shear rate
 * Shear stress
 * Shear thinning
 * Shearing (physics)
 * Shim (magnetism)
 * Shubnikov–de Haas effect
 * Siemens (unit)
 * Siemens cycle
 * Signorini problem
 * Silanization of silicon and mica
 * Silly Putty
 * Silver nanoparticle
 * Singapore Synchrotron Light Source
 * Single crystal
 * Single domain (magnetic)
 * Single wavelength anomalous dispersion
 * Single-molecule magnet
 * Sisyphus effect
 * Skew-T log-P diagram
 * Sky brightness
 * Slave boson
 * Slip (materials science)
 * Slip melting point
 * Slush hydrogen
 * Smart glass
 * Social thermodynamics theory
 * Soft matter
 * Soil thermal properties
 * Sokolov–Ternov effect
 * Solar flare
 * Solar wind
 * Solid
 * Solid mechanics
 * Solid solution
 * Solid-state chemistry
 * Solid-state dye lasers
 * Solid-state laser
 * Solid-state physics
 * Solidus (chemistry)
 * Southern Hemisphere Auroral Radar Experiment
 * Space group
 * Space physics
 * Space-time crystal
 * Spallation Neutron Source
 * Spaser
 * Specific energy
 * Specific strength
 * Specific surface energy
 * Specific volume
 * Sphere packing
 * Spherical basis
 * Spherical model
 * Spheromak
 * Spin (physics)
 * Spin Hall effect
 * Spin density wave
 * Spin engineering
 * Spin glass
 * Spin ice
 * Spin magnetic moment
 * Spin model
 * Spin polarization
 * Spin pumping
 * Spin stiffness
 * Spin transistor
 * Spin valve
 * Spin wave
 * Spin-stabilized magnetic levitation
 * Spinodal decomposition
 * Spinplasmonics
 * Spintronics
 * Spin–orbit interaction
 * Split-Hopkinson pressure bar
 * Split-ring resonator
 * Spontaneous emission
 * Spontaneous magnetization
 * Spontaneous process
 * Spontaneous symmetry breaking
 * Spontelectrics
 * Sputtering
 * Square-lattice Ising model
 * Stack effect
 * Standard conditions for temperature and pressure
 * Standard linear solid model
 * Standard molar entropy
 * Stanford Synchrotron Radiation Lightsource
 * State function
 * State of matter
 * Statistical mechanics
 * Statistical weight
 * Stefan–Boltzmann constant
 * Stefan–Boltzmann law
 * Steinhart–Hart equation
 * Stellar magnetic field
 * Stern–Gerlach experiment
 * Sticking coefficient
 * Stiction
 * Stiffness
 * Stirling cycle
 * Stirling engine
 * Stoddard engine
 * Stokes number
 * Stoletov curve
 * Stoner–Wohlfarth astroid
 * Stoner–Wohlfarth model
 * Stopping and Range of Ions in Matter
 * Stopping power (particle radiation)
 * Strain energy density function
 * Strain energy release rate
 * Strain hardening exponent
 * Strain rate tensor
 * Strange matter
 * Strangeness production
 * Streaming vibration current/potential
 * Strength of materials
 * Stress (mechanics)
 * Stress measures
 * Stress relaxation
 * String-net liquid
 * Strong confinement limit
 * Strongly correlated material
 * Strongly correlated quantum spin liquid
 * Strongly symmetric matter
 * Strontium ruthenate
 * Structure factor
 * Structure of liquids and glasses
 * Subcooling
 * Sublimation (phase transition)
 * Sun
 * Super black
 * SuperGrid
 * Supercell (crystal)
 * Superconducting coherence length
 * Superconducting magnet
 * Superconducting magnetic energy storage
 * Superconducting quantum computing
 * Superconducting radio frequency
 * Superconducting tunnel junction
 * Superconducting wire
 * Superconductivity
 * Superconductor Insulator Transition
 * Supercooling
 * Supercritical fluid
 * Supercurrent
 * Superdiamagnetism
 * Superexchange
 * Superferromagnetism
 * Superfluid film
 * Superfluid helium-4
 * Superfluidity
 * Superglass
 * Superheating
 * Superhydrophobe
 * Superinsulator
 * Superlattice
 * Superlens
 * Superlubricity
 * Supernova
 * Superparamagnetism
 * Supersaturation
 * Supersolid
 * Superstructure (condensed matter)
 * Surface conductivity
 * Surface forces apparatus
 * Surface freezing
 * Surface phonon
 * Surface photovoltage
 * Surface plasmon
 * Surface plasmon polariton
 * Surface plasmon resonance
 * Surface reconstruction
 * Surface states
 * Surface stress
 * Surface-extended X-ray absorption fine structure
 * Swihart velocity
 * Swiss Light Source
 * Sympathetic cooling
 * Synchrotron Radiation Center
 * Synchrotron Radiation Source
 * Synchrotron light source
 * Synchrotron radiation
 * Synergetics (Haken)
 * T-J model
 * T-symmetry
 * Table of thermodynamic equations
 * Taylor state
 * Taylor–Goldstein equation
 * Technological applications of superconductivity
 * Temperature
 * Temperature coefficient
 * Temperature control
 * Temperature measurement
 * Temperature–entropy diagram
 * Tension (physics)
 * Tensor operator
 * Tephigram
 * Terahertz gap
 * Terahertz metamaterials
 * Tetragonal crystal system
 * Texture (crystalline)
 * Theorem of corresponding states
 * Theories of cloaking
 * Theory of heat
 * Theory of tides
 * Thermal
 * Thermal Hall effect
 * Thermal analysis
 * Thermal conductance quantum
 * Thermal conduction
 * Thermal conductivity
 * Thermal contact
 * Thermal contact conductance
 * Thermal diffusivity
 * Thermal diode
 * Thermal effective mass
 * Thermal efficiency
 * Thermal energy
 * Thermal energy storage
 * Thermal expansion
 * Thermal history of the Earth
 * Thermal hydraulics
 * Thermal insulation
 * Thermal mass
 * Thermal physics
 * Thermal radiation
 * Thermal reservoir
 * Thermal resistance
 * Thermal science
 * Thermal transmittance
 * Thermal transpiration
 * Thermal velocity
 * Thermalisation
 * Thermally isolated system
 * Thermo-dielectric effect
 * Thermoacoustic heat engine
 * Thermocouple
 * Thermodynamic cycle
 * Thermodynamic diagrams
 * Thermodynamic equations
 * Thermodynamic equilibrium
 * Thermodynamic instruments
 * Thermodynamic length
 * Thermodynamic limit
 * Thermodynamic operation
 * Thermodynamic potential
 * Thermodynamic process
 * Thermodynamic square
 * Thermodynamic state
 * Thermodynamic system
 * Thermodynamic temperature
 * Thermodynamics
 * Thermodynamics of nanostructures
 * Thermoelectric cooling
 * Thermoelectric effect
 * Thermoelectric materials
 * Thermogravimetric analysis
 * Thermomagnetic convection
 * Thermomechanical analysis
 * Thermometer
 * Thermophoresis
 * Thermophotonics
 * Thermophotovoltaic
 * Thermoremanent magnetization
 * Thermotropic crystal
 * Thermotunnel cooling
 * Thin-film interference
 * Thin-film optics
 * Third law of thermodynamics
 * Thixotropy
 * Thomas Young Centre
 * Thomas–Fermi screening
 * Thomson scattering
 * Thouless energy
 * Ti-sapphire laser
 * Tight binding
 * Timeline of thermodynamics
 * Toda field theory
 * Tolman length
 * Tomlinson model
 * Tonks–Girardeau gas
 * Topological degeneracy
 * Topological entropy
 * Topological entropy in physics
 * Topological insulator
 * Topological order
 * Total air temperature
 * Toughness
 * Townsend (unit)
 * Transformation optics
 * Transient friction loading
 * Transmission line measurement
 * Transmon
 * Transverse isotropy
 * Tribology
 * Triclinic crystal system
 * Tricritical point
 * Trident laser
 * Trigonal crystal system
 * Trion (physics)
 * Triple point
 * Triple product rule
 * Trisops
 * Trojan wave packet
 * Trouton's ratio
 * Tsallis entropy
 * Tunable metamaterials
 * Tunnel injection
 * Tunnel magnetoresistance
 * Turbulent Prandtl number
 * Twisted nematic field effect
 * Two-dimensional gas
 * Two-dimensional point vortex gas
 * Two-stream instability
 * Type-1.5 superconductor
 * Type-I superconductor
 * Type-II superconductor
 * U.S. Standard Atmosphere
 * UMIST linear system
 * Ultracold atom
 * Ultrafast x-rays
 * Unconventional superconductor
 * Undulator
 * Uniaxial crystal
 * Universal conductance fluctuations
 * Unruh effect
 * Upper hybrid oscillation
 * Upper-atmospheric lightning
 * Uranium dioxide
 * VORPAL
 * Vacancy defect
 * Vacuum deposition
 * Vacuum flask
 * Valence band
 * Van Allen radiation belt
 * Van Hove singularity
 * Van der Waals equation
 * Vapor pressure
 * Vapor-compression refrigeration
 * Velocity overshoot
 * Verdet constant
 * Versatile Toroidal Facility
 * Vertex model
 * Vertical-cavity surface-emitting laser
 * Vertical-external-cavity surface-emitting-laser
 * Vibrating plate
 * Vibrational analysis with scanning probe microscopy
 * Viehland-Mason theory
 * View factor
 * Virial stress
 * Virial theorem
 * Virtual state (physics)
 * Vis viva
 * Viscoelasticity
 * Viscous remanent magnetization
 * Vlasov equation
 * Voigt effect
 * Volatility (chemistry)
 * Volume (thermodynamics)
 * Volume fraction
 * Volumetric heat capacity
 * Vortex state
 * Wannier function
 * Water vapor
 * Watt steam engine
 * Wave action (continuum mechanics)
 * Weak localization
 * Weibel instability
 * Weiss magneton
 * Werthamer–Helfand–Hohenberg theory
 * Wet-bulb temperature
 * Wide-bandgap semiconductor
 * Wideband materials
 * Wiedemann–Franz law
 * Wiggler (synchrotron)
 * Wigner crystal
 * Wigner effect
 * Wigner lattice
 * Wigner–Seitz cell
 * Wigner–Seitz radius
 * Wilson ratio
 * Wind chill
 * Wong–Sandler mixing rule
 * Woodstock of physics
 * Work (thermodynamics)
 * Work function
 * Work output
 * Worm-like chain
 * Wurtzite crystal structure
 * Wyckoff positions
 * X-ray absorption fine structure
 * X-ray absorption spectroscopy
 * X-ray astronomy
 * X-ray astronomy detector
 * X-ray crystallography
 * X-ray standing waves
 * XANES
 * Yb:LuVO4
 * Yield surface
 * Yoshimura buckling
 * Yttrium barium copper oxide
 * Yttrium lithium fluoride
 * Yttrium orthovanadate
 * Z N model
 * Zakharov system
 * Zero sound
 * Zero-phonon line and phonon sideband
 * Zeroth law of thermodynamics
 * Zimm–Bragg model
 * Zinc sulfide
 * Zonal flow (plasma)
 * Zone axis
 * Zone melting