Category:Condensed matter physics

**condensed matter physics**
	branch of physics dealing with a property of matter
	Upload media
	Wikipedia
Pronunciation audio
Instance of	branch of physics; specialty; field of study; academic discipline;
Subclass of	physics; continuum physics;
Authority file
	Q214781; GND ID: 4132810-3; Library of Congress authority ID: sh85030765; BNCF Thesaurus ID: 53493; NL CR AUT ID: ph120425
	Reasonator; Scholia; Wikidocumentaries; PetScan; statistics; WikiMap; Locator tool; KML file; Search depicted;

<nowiki>física de la materia condensada; Þétteðlisfræði; Fizik jirim termeluwap; condensed matter physics; Физика на кондензираната материя; Fizica materiei condensate; کثیف مادہ طبیعیات; Fyzika kondenzovaného stavu; Fisica de la matèria condensada; 凝聚態物理學; 凝聚态物理学; 응집물질물리학; fiziko de kondensita materio; физика на кондензираната материја; fizika kondenzovane materije; ঘনপদার্থবিজ্ঞান; physique de la matière condensée; Конденсациленнĕ тăрăмсен физики; Vật lý vật chất ngưng tụ; Fizika kondenzovane materije; Física da matéria condensada; 凝聚态物理学; kondensert fase-fysikk; kondenserte fasers fysikk; فیزیکی ماددەی چڕ; condensed matter physics; فيزياء المواد المكثفة; 凝聚態物理學; Materia kondentsatuaren fisika; Física de la materia entestada; física de la matèria condensada; Kondensierte Materie; Fizika e materies së kondensuar; فیزیک ماده چگال; 凝聚态物理学; kondenseret materiens fysik; კონდენსირებული გარემოს ფიზიკა; 物性物理学; פיזיקה של חומר מעובה; संघनित द्रव्य भौतिकी; 凝聚态物理学; tiiviin aineen fysiikka; Condensed matter physics; fisica della materia condensata; Tihkaine füüsika; 凝聚态物理学; фізыка кандэнсаванага стану; física da matéria condensada; 凝聚體物理學; fizika kondenzirane tvari; kondenserade materiens fysik; 凝聚態物理學; fizika kondenzirane snovi; Pisika ng kondensadong materya; Yoğun madde fiziği; Ffiseg mater cyddwysedig; Fisika benda terkondensasi; fizyka materii skondensowanej; խտացված նյութի ֆիզիկա; fysica van de gecondenseerde materie; фізика конденсованих середовищ; фізіка кандэнсаванага стану; ڪنڊينسڊ مادي جي فزڪس; fyzika kondenzovaného stavu; Física da materia condensada; fisic ábhair chomhdhlúite; Φυσική συμπυκνωμένης ύλης; физика конденсированного состояния; branca della fisica moderna; পদার্থবিদ্যার শাখা; domaine de la physique étudiant les propriétés de la matière de forte densité atomique, comme les solides et les liquides, mais aussi des matériaux intermédiaires entre les deux (e.g. les cristaux liquides); галіна фізыкі; область физики, которая занимается исследованиями макроскопических и микроскопических свойств вещества; Materie im festen oder flüssigen Aggregatzustand; галіна фізікі; Gren af fysik; 物質の様々な巨視的性質を微視的な観点から研究する分野; cabang ilmu fisika; dział fizyki badający układy wielu ciał; ענף בתוך הפיזיקה אשר עוסק בחומר שנמצא במצב צבירה מעובה; branch of physics dealing with a property of matter; nesteiden ja kiinteiden aineiden sähköisiä, magneettisia, termisiä, mekaanisia ja optisia ominaisuuksia tutkiva fysiikan ala; campo da Física; فرع من فروع الفيزياء يتعامل مع خاصية المادة; fysikgren; studfako de fiziko; fisica dello stato condensato; fisica della materia; physique des milieux condensés; physique de la matiere condensee; Þéttefnisfræði; Storkufræði; ФКС; физика конденсированных сред; kondensierte Materie in der Physik; Physik der kondensierten Materie; física de materiais; فیزیک مادهٔ چگال; 凝聚态物理; 凝態物理學; 凝態物理; 凝聚相; Yoğun madde; Pisika ng materyang kondensada; Pisika ng kondensadang materya; Condensed matter physics; Physics of condensed matter; Pisika ng materyang siksik; Pisika ng siksik na materya; Pisika na pangmateryang siksik; Pisika na pangmateryang kondensada; kondenserade materias fysik; פיזיקת מצב מעובה; פיזיקה של מצב מעובה; פיסיקה של מצב מעובה; 凝聚態物理學; kondensoituneen aineen fysiikka; Fisika benda kondensi; 凝縮系; 凝縮系物理学; 凝縮物質の物理; 物性物理; 凝縮系物理; 物性論; 物性理論; 물성물리학; 응집 물질 물리학; 응집물질; 응집 물리; 응집물질 물리학; 응집물질물리; 물성 물리학; Physics of Condensed Matter; فيزياء المادة المكثفة; فيزياء المواد المكثفه; فيزياء المادة الصلبة; فيزياء الهايولة المكثفة; kondenzirana tvar; фізика конденсованого середовища; фізика конденсованого стану; фізика конденсованих речовин</nowiki>

English: 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.

L

Liquid (30 C, 1 P, 97 F)

M

Magnetism (53 C, 238 F)
Magnetostriction (16 F)
Microelectronic and microelectromechanical systems (10 C, 12 F)
Mineralogy (42 C, 211 F)
Mössbauer effect (1 P, 28 F)

P

Plasma oscillations (3 C, 26 F)

Q

Quasiparticle (4 C, 2 F)

R

Radiation effects (3 C, 2 F)

S

Scattering (16 C, 102 F)
Second harmonic generation microscopy (1 C, 4 F)
Semiconductors (27 C, 204 F)
Soft condensed matter physics (1 C)
Soft matter (3 C, 6 F)
Solid state physics (24 C, 80 F)
Solids (matter) (14 C, 7 F)
States of aggregation (14 C, 53 F)

V

Videos of condensed matter physics (6 C, 93 F)

W

Weyl semimetals (1 C, 2 F)

Media in category "Condensed matter physics"

The following 165 files are in this category, out of 165 total.

2d pc.png 572 × 474; 10 KB
Aggregatie1-R00.svg 666 × 591; 9 KB
ARPES - Cu(111) surface state - 21.22eV 300K.svg 359 × 353; 271 KB
ARPES - sample and analyzer reference frames - normal emission.svg 976 × 521; 630 KB
ARPES - sample and analyzer reference frames - polar and tilt and azimuth change.svg 452 × 521; 530 KB
ARPES - sample and analyzer reference frames - polar and tilt change.svg 452 × 521; 519 KB
ARPES - sample and analyzer reference frames - polar angle change.svg 452 × 521; 514 KB
ARPES constant energy map near Fermi level given in analyzer angle - polar angle units.svg 452 × 323; 171 KB
ARPES constant energy map near Fermi level given in momentum units.svg 470 × 325; 137 KB
ARPES energy - analyzer angle maps at several polar angles away from normal emission.svg 279 × 317; 701 KB
ARPES energy-analyzer angle map around normal emission angle.svg 338 × 315; 914 KB
ARPES of renormalized π band of graphene and calculated bare band.svg 433 × 558; 136 KB
ARPES setup - ultraviolet source - sample holder - electron analyzer.svg 794 × 544; 587 KB
Aspen Center for Physics Smart Hall Photo Spring 2023.jpg 2,048 × 1,152; 919 KB
Asymmetric ion track channels.jpg 670 × 669; 100 KB
Aubryandre localizationlenght.svg 277 × 178; 24 KB
Biexciton levels.png 383 × 266; 6 KB
BlochWaves1D.svg 540 × 450; 75 KB
Brendel-Bormann Oscillator Model.png 2,216 × 1,711; 133 KB
CFT - High Spin Splitting Diagram.PNG 497 × 216; 4 KB
Chiral magnetic effect ZrTe5 - resistivity vs magnetic field vs angle at 20K.svg 505 × 578; 14 KB
Classical-quantum.png 3,053 × 1,987; 571 KB
Condensed matter physics self-energy Feynman diagram.svg 273 × 213; 11 KB
Conductivity of P doped Si versus doping.jpg 1,088 × 1,280; 52 KB
Coordinates.png 431 × 292; 2 KB
Cophonicity definition.png 2,103 × 1,551; 70 KB
CriticalHyperplane.png 445 × 282; 3 KB
Criticalradiusratio-id.png 840 × 467; 15 KB
Criticalradiusratio.png 840 × 467; 19 KB
CT Mott.svg 322 × 155; 28 KB
Cu-Pt type ordering.JPG 506 × 268; 20 KB
Dangling bonds in amorphous silicon.jpg 989 × 600; 100 KB
DC Squid01.jpg 2,016 × 1,176; 933 KB
Degrés de mobilité.svg 279 × 165; 12 KB
DePriester Chart 1.JPG 571 × 749; 66 KB
DePriester Chart 2.JPG 550 × 676; 67 KB
E Burstein scan.jpg 1,193 × 1,495; 123 KB
Edge states illustration.png 1,257 × 936; 44 KB
Electrical conductivity of Si doped with P.jpg 883 × 1,280; 74 KB
Electron spectrometer for ARPES, working principle.svg 542 × 700; 44 KB
Electron trajectories in ARPES spectrometer lens (Phoibos 100).svg 1,205 × 397; 11 KB
Electron-matter interaction volume and various types of signal generated - v1.svg 289 × 252; 59 KB
Electron-matter interaction volume and various types of signal generated - v2.svg 284 × 254; 78 KB
Electronic band structure of graphene.svg 245 × 341; 657 KB
Electronic nuclear stopping Al in Al.png 3,384 × 2,376; 27 KB
Energieband.jpg 576 × 383; 24 KB
Fermi liquid bcs loop.png 171 × 104; 4 KB
Fermi-dirac-wiki.svg 630 × 520; 39 KB
FermiLiquidSimpleKinematics.png 509 × 94; 9 KB
FermiLiquidTreeLifetime.png 554 × 180; 19 KB
File-Water droplet at DWR-coated surface1.jpg 1,419 × 1,104; 562 KB
Forouhi-Bloomer Model.png 797 × 562; 40 KB
Franck-Condon shift dangling bond in silicon.jpg 1,814 × 1,814; 222 KB
Franz keldysh effekt absorption.svg 412 × 148; 44 KB
Google Ngram Viewer diagram on complex matter terminology.png 2,982 × 996; 188 KB
Graphene - Geim - ambipolar FET.svg 209 × 210; 41 KB
Graphene - Geim - Chiral half-integer quantum Hall effect.svg 220 × 188; 49 KB
Graphene - Geim - Landau levels.svg 91 × 176; 19 KB
Graphene moire on Ir(111) - schematic.svg 357 × 475; 1 KB
Gurzhi effect.png 800 × 417; 32 KB
H2SPTPS.png 6,600 × 5,100; 862 KB
H2TPS.png 1,000 × 700; 8 KB
H8Si8O12.gif 775 × 404; 73 KB
H8Si8O12.png 775 × 404; 26 KB
Hemispherical electron energy analyzer - calculated trajectories for different energies and initial angles.svg 780 × 420; 32 KB
Hemispherical electron energy analyzer - calculated trajectories for different energies and initial offsets within the slit.svg 780 × 420; 18 KB
Hemispherical electron energy analyzer - dispersion with respect to kinetic energy, initial radius, and impinging angle.svg 2,468 × 565; 157 KB
Hemispherical electron energy analyzer for ARPES - main parts.svg 531 × 572; 50 KB
Hemispherical electron energy analyzer working principle.svg 542 × 504; 42 KB
HM Physicist.jpg 185 × 200; 7 KB
HubbardTPS.png 6,600 × 5,100; 955 KB
Hybridization.png 3,507 × 2,480; 40 KB
Ic B dependence01.jpg 2,928 × 1,952; 683 KB
Impact factor of ionazation in Si, Ge.svg 730 × 882; 2 KB
Interaction rayonnement matiere incidence svg.svg 542 × 418; 89 KB
Irradiation at ion accelerator.jpg 481 × 300; 19 KB
Irradiation at nuclear reactor.jpg 631 × 264; 27 KB
Irradiation by ion microbeam.jpg 545 × 254; 28 KB
Irradiation by single ion.jpg 540 × 266; 23 KB
Irradiation using radionuclide.jpg 576 × 217; 18 KB
Jahn-Teller effect in octahedral complexes.png 567 × 852; 8 KB
Jahn-Teller vaikutus oktaedrisissä komplekseissa.png 567 × 852; 8 KB
Jorge V. José.jpg 1,500 × 2,100; 1.63 MB
KAPP Photo EB.JPG 1,024 × 683; 248 KB
Kondo insulator.png 3,507 × 2,480; 28 KB
Labeled LO and TO phonon energies at gamma for GaAs.png 417 × 498; 60 KB
LAOSTO Above Critical Thickness.png 1,519 × 828; 35 KB
LAOSTO Below Critical Thickness.png 1,521 × 673; 12 KB
LAOSTO Interface.png 1,364 × 570; 13 KB
Linewidth.png 635 × 286; 11 KB
Lorentz Oscillator Model.png 5,105 × 3,362; 364 KB
LPoscNOW.jpg 863 × 793; 104 KB
Ls ampl char natoceni.jpg 561 × 420; 17 KB
Ls ampl char vychylka.jpg 561 × 420; 17 KB
M. Cristina Marchetti by photographer Moumita Das.jpg 312 × 344; 15 KB
Markus Rauber Exp 169p3 - 20.jpg 1,280 × 1,024; 127 KB
Markus Rauber Exp 179 - 36.jpg 1,280 × 1,024; 199 KB
Models osc.gif 200 × 429; 24 KB
Moire of twisted bilayer graphene.svg 357 × 475; 1 KB
Moiré superstructure of graphene on iridium (111) surface - STM and LEED characterization.svg 612 × 445; 1.03 MB
Multiferroics history use of terms magnetoelectric and multiferroic.png 1,281 × 676; 9 KB
N2 Wannier.png 900 × 1,200; 226 KB
Non-equilibrium for two length scales.png 896 × 755; 45 KB
Ohmsketch.gif 271 × 220; 5 KB
Optical Microresonator.png 2,640 × 3,736; 174 KB
Phonovoltaic efficiency.png 1,047 × 1,059; 87 KB
Photoelectric effect - stopping voltage diagram for zinc - Croatian - Fotoelektrični efekt -zaustavni napon na cink - Hrvatski.svg 502 × 337; 108 KB
Photoelectric effect - stopping voltage diagram for zinc - English.svg 502 × 337; 80 KB
Photoelectric effect in a solid - diagram.svg 364 × 364; 8 KB
Photoelectric effect measurement apparatus - microscopic picture.svg 283 × 455; 90 KB
Piezophototronics.png 1,319 × 1,760; 138 KB
Piezotronics1.png 1,134 × 357; 22 KB
Piezotronics2.png 829 × 687; 129 KB
Point Contact01.jpg 2,388 × 1,484; 1.08 MB
Poole-Frenkel.png 505 × 452; 16 KB
Poole-Frenkel2.png 505 × 452; 19 KB
Poole-Frenkel3.png 725 × 477; 34 KB
Poole-Frenkel4 modified.png 741 × 467; 29 KB
Programme of the conference in Évora, Portugal, 22 May - 2 June 1989.pdf 5,810 × 7,450; 2.12 MB
Programme of the conference in Évora, Portugal, October 4-9, 1998.pdf 4,708 × 6,783; 1.62 MB
Programme of the conference in Évora, Portugal, October 7-11, 1996.pdf 5,604 × 8,104; 2.14 MB
Pseudofunción de onda (teoría Ginzburg-Landau).png 1,260 × 960; 50 KB
Ptychography experiment with visible light in a laboratory.jpg 1,280 × 1,065; 211 KB
QBE Theory.pdf 900 × 600; 203 KB
QBE Theory.svg 540 × 360; 587 KB
QuantumPhaseTransition(zh-cn).png 745 × 570; 21 KB
QuantumPhaseTransition.png 745 × 570; 66 KB
Quasi-one dimensional topologies.png 898 × 1,353; 277 KB
R3s4 Ya35.tif 1,024 × 768; 794 KB
Randall-kamien.jpg 404 × 520; 124 KB
Rauigkeit.png 881 × 1,016; 20 KB
Rdf schematic.jpg 411 × 375; 61 KB
Reduced specific heat for KCl, TiO2, graphite 01.png 2,107 × 1,721; 299 KB
Sample holder in ultrahigh vacuum chamber for angle-resolved photoemission spectroscopy.jpg 750 × 750; 171 KB
Scanning tunneling microscope - tip, barrier and sample wave functions.svg 516 × 324; 21 KB
Scanning tunneling microscope - tunneling - Density of states.svg 476 × 302; 33 KB
Silicon conduction band ellipsoids.svg 450 × 439; 45 KB
Specific heat of several glassy solids.png 1,496 × 2,098; 362 KB
Spontaneouspolarization.png 481 × 350; 4 KB
Superconducting rings01.jpg 2,196 × 1,272; 1.02 MB
Surface reorganisation in silicon pairs dangling bonds.svg 512 × 498; 3 KB
Tauc-Lorentz Model.png 808 × 553; 43 KB
Tilted dirac cones.png 1,920 × 990; 1.45 MB
TiN DOS.tif 2,211 × 1,633; 10.33 MB
Topological insulator informal phase diagram-en.svg 744 × 354; 794 bytes
Topological insulator informal phase diagram-ru.svg 744 × 354; 848 bytes
Topological insulator informal phase diagram.png 1,361 × 637; 82 KB
Track Etch Threshold and Thermal Conductivity.jpg 1,019 × 936; 110 KB
Two-dimensional schematic diagram of quartz, silica, and silica-based glass.png 2,143 × 1,344; 571 KB
Unhybridized.png 3,507 × 2,480; 35 KB
WanF-BaTiO3.png 622 × 681; 87 KB
WF111-Anderson transition-multifractal.jpeg 904 × 1,022; 258 KB
Wigner-Seitz Cell.gif 480 × 522; 1.16 MB
X-ray phytograph of part of a zone plate.jpg 1,280 × 843; 216 KB
X-ray ptychograph of a zone plate.jpg 1,284 × 847; 877 KB
Ефект вивертання пор.JPG 554 × 362; 38 KB
Ефект вивертання пор2.JPG 613 × 544; 46 KB
Инверсный слой.png 1,458 × 1,154; 16 KB
Инверсный слой.svg 854 × 836; 12 KB
Коэффициент лавинного размножения в Si от Т.svg 722 × 625; 21 KB
Лавинный пробой.png 1,839 × 793; 17 KB
Обедненный слой.png 1,092 × 896; 7 KB
Обогащенный слой.png 1,092 × 896; 7 KB
מעבר פאזה לא רציף.png 678 × 628; 11 KB
מעבר פאזה רציף.png 678 × 628; 11 KB

Category:Condensed matter physics

Subcategories

A

B

C

E

F

I

L

M

P

Q

R

S

V

W

Media in category "Condensed matter physics"

Navigation menu

Search