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TUM Classification System - Physics

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PHY 000Belonging to the Subject; not further Classified
PHY 001Physik allgemein
PHY 010Theoretical Physics
PHY 080Measuring in Physics
PHY 100Applied Physics
PHY 200Mechanics
PHY 250Acoustics
PHY 300Electrodynamics
PHY 350Optics
PHY 400High-Energy Physics; Medium-Energy Physics; Particle and Nuclear Physics
PHY 410Particle Physics; Theory of Interactions in General
PHY 450Nuclear Physics
PHY 495Atomic and Nuclear Physics
PHY 500Atomic Physics and Molecular Physics
PHY 550Physics of Fluid Media, Plasmas, Electrical Discharges
PHY 600Condensed Matter Physics: Liquids and Solids
PHY 800Interdisciplinary Physics
PHY 820Biophysics
PHY 900Astronomy; Astrophysics
PHY 999Others on Physics and Astronomy
  • PHY 000: Belonging to the Subject; not further Classified
  • PHY 001: Physik allgemein
    Techniques of Intellectual Work (Retrieval, Acquirement and Reproduction) in (Natural) Sciences see KOM 985
    Methodology of Scientific Research see NAT 130 ff
    • PHY 002: Didactics, Training and Career in Physics
    • PHY 003: Textbooks and Task-Collections in Physics
    • PHY 004: Physics for Other Disciplines
    • PHY 005: Physics in Relation to Other Fields of Knowledge (Humanities, Social Sciences, Sports ...); Philosophical Problems of Physics
      Philosophy of (Natural) Sciences see NAT 250
      Philosophical Problems of Quantum Theory see PHY 028
    • PHY 006: History of Physics
    • PHY 007: Biographies, Collection of Letters, Bibliographies of Individual Physicists
    • PHY 008: Collected Works of Individual Physicists
    • PHY 009: Commemorative Publications (Festschrift) for Individual Physicists
  • PHY 010: Theoretical Physics
    • PHY 011: Mathematical Physics (Mathematical Methods in Physics)
      • PHY 012: Algebra, Group Theory, Symmetries
        Group Theory in Quantum Mechanics see PHY 021
        Group Theory in Elementary Particle Physics see PHY 411
      • PHY 013: Analysis, Complex Analysis, Operators, Differential Equations, Conservation Laws, Oscillations and Wave
        Solitons see also MAT 354
        Technical Oscillations see MTA 550 ff
        Mechanical Oscillations see PHY 204
        Hydrodynamic Oscillations see PHY 226
        Electromagnetic Oscillations see PHY 303
      • PHY 014: Geometry, Differential Geometry, Topology
      • PHY 015: Statistics, Probability Theory
        Statistical Physics see PHY 050 ff
      • PHY 016: Computer Physics (Numerical Analysis, Data Processing, Computer Simulations)
        Nuclear Data Processing; Data Processing in High Energy Physics see PHY 408
    • PHY 020: Quantum Theory; Quantum Mechanics in General (Textbooks)
      Quantum Information Science see DAT 503
      Quantum Gravity see PHY 044
      Classical Mechanics see PHY 200
      Quantum Optics see PHY 370
      Quantum Theory in Solid State Physics see PHY 602
      • PHY 021: Angular Momenta in Quantum Mechanics; Group Theory in Quantum Mechanics
        Algebra, Group Theory, Symmetries (Mathematical Physics ) see PHY 012
      • PHY 022: Specific Topics; Relativistic Quantum Mechanics
      • PHY 023: Quantum Field Theory in General
        Theory of Elementary Particles see PHY 410 ff
        Gauge Theory see PHY 417
      • PHY 024: Relativistic Quantum Field Theory
      • PHY 025: Renormalization
      • PHY 026: Many-Body Theory; Many-Body Systems in General
      • PHY 027: Scattering Theory in General; S-Matrix Theory
      • PHY 028: Interpretation of Quantum Theory; Philosophical Problems of Quantum Theory
    • PHY 035: Field Theory
      Field Theory in Electrodynamics see also PHY 300 ff
    • PHY 037: String Theory; Superstring Theory
    • PHY 040: Theory of Relativity in General
      • PHY 041: Special Theory of Relativity
      • PHY 042: General Theory of Relativity
    • PHY 043: Gravitation in General
      Gravitation in Astrophysics see PHY 928
      • PHY 044: Quantum Gravity
      • PHY 045: Supergravity; Other Theories of Gravitation
        Standardization of Interactions see PHY 418
      • PHY 048: Experimental Studies on Gravitation
    • PHY 050: Thermodynamics; Statistical Physics
      • PHY 051: Phenomenological Thermodynamics
        Chemical Thermodynamics see CHE 170
        Technical Thermodynamics see MTA 600 ff
        • PHY 052: Heat Flow; Thermodynamic Processes; Heat Conduction; Heat Radiation
          Radiation Physics, Radiation Laws see PHY 355
        • PHY 054: Non-Equilibrium Thermodynamics; Irreversible Processes
      • PHY 057: Statistical Mechanics
        • PHY 058: Kinetic Theory
      • PHY 060: Quantum Statistics
      • PHY 062: Statistical Theory of Non-Equilibrium Thermodynamics
      • PHY 063: Transport Theory in General
      • PHY 064: Fluctuations, Stochastic Processes
      • PHY 065: Phase Transformations; Critical Phenomena in General
        Phase Transformations of Condensed Matter see PHY 641
        Phase Transformations in Superconductors see PHY 713
        Phase Transformation in Magnetic Substances see PHY 723
      • PHY 066: Chaotic Systems; Non-Linear Dynamic Systems in Physics
        Dynamic Systems of Differential Equations see MAT 344
        Chaos Theory see MAT 587
      • PHY 067: Synergetics
  • PHY 080: Measuring in Physics
    Gravimetry see GEO 515
    • PHY 095: Practical Courses in Physics, Laboratory Experiments
  • PHY 100: Applied Physics
    Experimental Methods of High-Energy Physics see PHY 401 ff
    • PHY 101: Vacuum Physics
    • PHY 110: Radiology, Ionizing Radiation (including Sources, Detectors, Spectrometers)
      Medicinal Radiology see MED 540
      Use of Radiation from Accelerators, Nuclear Plants etc. see NUC 960 ff
      Particle Sources of High-Energy Physics see PHY 405
      Radiation Measurement in High-Energy Physics see PHY 406
      • PHY 112: X-Ray Spectroscopy
      • PHY 113: Gamma Spectroscopy
      • PHY 115: Mass Spectrometer; Mass Spectrometry
        Mass Spectrometry in Chemistry see CHE 254
      • PHY 116: Electron Spectroscopy
      • PHY 118: Ion Spectroscopy
    • PHY 120: Optical Spectroscopy (including Ultraviolet and Infrared)
      • PHY 125: Fourier Spectroscopy
      • PHY 127: Heterodyne Spectroscopy
    • PHY 130: Microscopy
      Microscopy in Chemistry see CHE 264
      • PHY 131: Optical Microscopy
      • PHY 132: X-Ray Microscopy
      • PHY 135: Electron Microscopy; Scanning Electron Microscopy
        Electron Microscopy in Chemistry see CHE 264
      • PHY 136: Scanning Probe Microscopy
      • PHY 138: Ion Microscopy
    • PHY 140: Photographic Techniques in Physics; Other Imaging Methods in Physics
    • PHY 150: Physics of Extreme Intensive Variables
      • PHY 151: High-Temperature Physics
      • PHY 152: Low-Temperature Physics; Cryogenic Physics
      • PHY 153: High-Pressure Physics
      • PHY 154: High-Magnetic-Field Physics; High Electric Fields
    • PHY 160: Surface Analysis
  • PHY 200: Mechanics
    • PHY 201: Mechanics of Point Masses and Rigid Bodies
    • PHY 202: Mechanics of Deformable Rigid Bodies; Elasticity Theory
      • PHY 204: Mechanical Oscillations and Waves
    • PHY 205: Non-Linear Mechanics
    • PHY 210: Continuum Mechanics
      • PHY 213: Plasticity
      • PHY 216: Rheology; Viscosity; Viscoelasticity
      • PHY 219: Hydrostatics
      • PHY 220: Fluid Mechanics; Hydrodynamics; Aerodynamics
        • PHY 221: Laminar Flow
        • PHY 222: Hydrodynamic Stability
        • PHY 223: Turbulent Flow
        • PHY 224: Convection and Heat Transfer
        • PHY 225: Rotating Flow; Vortex
        • PHY 226: Hydrodynamic Waves
        • PHY 227: Compressible Media Flow
        • PHY 228: Dynamics of Diluted Gases; Gas Dynamics
        • PHY 229: Non-Newtonian Dynamics
        • PHY 231: Inhomogeneous Flow
        • PHY 232: Relativistic Hydrodynamics
    • PHY 249: Others on Mechanics
  • PHY 250: Acoustics
    • PHY 251: Sound Generation
    • PHY 252: Sound Transmission; Sound Propagation
    • PHY 255: Non-Linear Acoustics
    • PHY 260: Aeroacoustics and Atmospheric Sound
    • PHY 265: Underwater Acoustics; Sonar
    • PHY 270: Ultrasonics
    • PHY 275: Infrasonics
    • PHY 280: Acoustic Holography
    • PHY 281: Acoustic Microscopy
    • PHY 295: Musical Acoustics
    • PHY 299: Others on Acoustics
  • PHY 300: Electrodynamics
    Quantum Electrodynamics see PHY 415
    • PHY 301: Electrostatics; Magnetostatics
    • PHY 302: Stationary and Quasi-Stationary Currents and Fields; Electromagnetism; Induction
    • PHY 303: Rapidly Changing Fields; Electromagnetic Waves
    • PHY 320: Particles in the Electromagnetic Field
      • PHY 321: Particle Optics; Particle Radiation
      • PHY 322: Electron Optics; Electron Radiation
      • PHY 323: Ion Optics; Ion Radiation
    • PHY 349: Others on Electrodynamics
  • PHY 350: Optics
    Physiological Optics see PHY 826
    • PHY 351: Optical Imaging; Geometrical Optics
    • PHY 355: Radiation Physics; Optical Radiation; Radiation Laws
      Photometry see MSR 372
    • PHY 360: Physical Optics; Wave Optics
      • PHY 361: Science of Colours; Colorimetry
      • PHY 362: Radiation Propagation; Reflection, Refraction
      • PHY 363: Light Scattering; Light Diffraction
      • PHY 364: Interference; Coherence
      • PHY 365: Polarization
      • PHY 366: Optical Information; Image Generation; Fourier Optics
      • PHY 368: Holography
      • PHY 369: Others on Physical Optics
    • PHY 370: Quantum Optics; Quantum Electronics; Statistical Optics
      • PHY 371: Non-Classical / Squeezed Light
      • PHY 372: Laser
        • PHY 373: Solid-State Laser; Semiconductor Laser
        • PHY 374: Gas Laser; Excimer Laser; Dye Laser
        • PHY 375: Chemical Laser
        • PHY 376: Free-Electron Laser (Fel)
        • PHY 377: X-Ray and Gamma-Ray Laser
        • PHY 378: Laser Operation (Tuning, Continuous Wave, Mode-Locking, Modulation ...
        • PHY 379: Laser Applications
          Laser Interferometry see MSR 415
          Laser Spectroscopy see PHY 120 ff
    • PHY 380: Non-Linear Optics
      • PHY 387: Ultra-Rapid Optical Technologies (Picosecond Spectroscopy, Femtosecond Spectroscopy, ...)
    • PHY 390: Optical Materials
    • PHY 391: Optical Instruments (X-Ray-Optics, ...)
      Relevant Technologies see FEI 450
      Particle Optics see PHY 320 ff
    • PHY 392: Optical Components
      Components and Systems (Lenses, Objectives, Shutters, ...; Optical Glass) of Technical Optics see FEI 410
    • PHY 393: Integrated Optics
    • PHY 394: Fiber Optics; Optical Waveguides
      Optical Waveguides in Telecommunication Engineering see ELT 683
      Optical Waveguides in Sensor Technology see MSR 055
    • PHY 399: Others on Optics
  • PHY 400: High-Energy Physics; Medium-Energy Physics; Particle and Nuclear Physics
    • PHY 401: Devices and Experimental Methods of High-Energy Physics
      • PHY 402: Accelerators
        • PHY 403: Linear Accelerators
        • PHY 404: Ring Accelerators; Storage Rings
      • PHY 405: Particle Sources; Targets
      • PHY 406: Radiation Detectors; Particle Radiation Measurement in High-Energy Physics
        Radiation Measurement see MSR 370
        Radiology in General, see PHY 110 ff
        Mass Spectrometers, see PHY 115
      • PHY 407: Nuclear Electronics
      • PHY 408: Nuclear Data Processing; Data Processing in High Energy Physics
  • PHY 410: Particle Physics; Theory of Interactions in General
    Quantum Field Theory, see PHY 023 ff
    • PHY 411: Group Theory in Elementary Particle Physics; Symmetry and Conservation Laws
    • PHY 412: Standard Models of Particle Physics
    • PHY 413: Strong Interaction; Quantum Chromodynamics; Quark Models
    • PHY 414: Electroweak Interaction; Quantum Flavour Dynamics; Weak Interaction
    • PHY 415: Electromagnetic Interaction; Quantum Electrodynamics
    • PHY 417: Gauge Theories
    • PHY 418: Models of Unification (GUT, Supersymmetry, ...)
      String Theory, see PHY 037
      Supergravity, see PHY 045
    • PHY 419: Others on Particle Physics / Particle Theory
    • PHY 420: Specific Particles (including Decay)
      • PHY 421: Leptons
      • PHY 422: Hadrons
      • PHY 423: Mesons
      • PHY 424: Hyperons
      • PHY 425: Nucleons; Baryons
      • PHY 426: Quasi-Elementary Agglomerate Particles
      • PHY 427: Field Quanta; Gauge Bosons
      • PHY 428: Mass Resonances
      • PHY 429: Quarks
    • PHY 431: Scattering and Reactions of Elementary Particles
      S-Matrix Theory, see PHY 027
      • PHY 432: Elastic Scattering of Particles
      • PHY 433: Photon Induced Reactions; Photoproduction; Compton Effect
      • PHY 434: Particle-Antiparticle Oscillations; Neutrino Oscillation; Flavour Mixing
      • PHY 435: Experiments with Electron-Positron Storage Rings; Pair Production Processes
      • PHY 436: Lepton-Hadron Processes
      • PHY 437: Hadron-Induced Reactions
      • PHY 439: Other Inelastic and Highly Inelastic Reactions of Particles
    • PHY 449: Others on Particle Physics
  • PHY 450: Nuclear Physics
    Nuclear Astrophysics, see PHY 926
    • PHY 451: Nuclear Theory
      • PHY 452: Nuclear Binding Forces; Theory of Nuclear Structure
      • PHY 454: Nucleon Systems; Many-Particle Problem in Nuclear Physics
      • PHY 455: Nuclear Structure; Nuclear Structure Models
    • PHY 456: Nuclear Matter
    • PHY 457: Properties of the Nucleus; Data on Nuclei (Nuclide Tables)
    • PHY 458: Nuclear Spectroscopy; Experimental Models of Nuclear Physics
    • PHY 459: Hypernuclei
    • PHY 460: Nuclear Decay; Radioactivity
      • PHY 461: Alpha Decay
      • PHY 462: Beta Decay; Electron Capture (EC)
      • PHY 463: Gamma Decay
      • PHY 464: Proton Radioactivity; Beta-Delayed Decay; Other Kinds of Decay
      • PHY 466: Spontaneous Fission
    • PHY 470: Nuclear Reactions; Models of Nuclear Reactions
      • PHY 471: Heavy Ion Physics
        • PHY 472: Nuclear Fission
          Nuclear Fission for Power Generation, Nuclear Reactors, see NUC 200 ff
      • PHY 473: Elastic Scattering of Nuclei
      • PHY 474: Nuclear Photo Processes
      • PHY 475: Capture Processes; Nuclear Fusion
        Nuclear Fusion for Power Generation, Fusion Reactors, see NUC 700 ff
      • PHY 476: Giant Resonances
      • PHY 477: Spallation
      • PHY 479: Other Inelastic and Highly Inelastic Nuclear Reactions
    • PHY 480: Neutron Physics
    • PHY 489: Other Themes in Nuclear Physics
  • PHY 495: Atomic and Nuclear Physics
  • PHY 500: Atomic Physics and Molecular Physics
    • PHY 501: Electron Structure of Atoms and Molecules; Chemical Bond
      • PHY 502: Ab Initio Calculations
      • PHY 503: Excited States; Rydberg States
      • PHY 504: Fine Structure
      • PHY 505: Hyperfine Structure
    • PHY 507: Interaction; Intermolecular Forces; Potentials
    • PHY 508: Molecular Vibration
    • PHY 509: Molecular Rotation
    • PHY 510: Atomic and Molecular Spectra, Interaction with Photons
      • PHY 511: Atomic Spectra
      • PHY 512: Molecular Spectra
      • PHY 513: Fluorescence; Luminescence; Phosphorescence
      • PHY 514: Inner Conversion; Radiationless Transition
      • PHY 515: Stark Effect; Zeeman Effect
    • PHY 516: Paramagnetic Resonance
      • PHY 517: NMR; NQR
        in Condensed Matter, see PHY 754
      • PHY 518: ESR; ESR Spectroscopy
        in Condensed Matter, see PHY 751
      • PHY 519: Double Resonances
    • PHY 522: Photon Interaction with Atoms and Molecules; Laser Magnetic Resonance
      • PHY 523: Optical Pumping
      • PHY 524: Auto-Ionization, Photo-Ionization; Photo-Effect
      • PHY 525: Auger Effect; Inner Shell Ionization; Characteristic X-Ray Radiation
    • PHY 530: Atomic and Molecular Collision Processes
      • PHY 531: Inelastic Scattering of Atoms and Molecules
      • PHY 532: Elastic Scattering of Atoms and Molecules
      • PHY 533: Charge Transfer
      • PHY 534: Electron Scattering of Atoms and Molecules
      • PHY 535: Ionization
      • PHY 536: Ion-Atom Collisions; Ion-Molecule Collisions
    • PHY 540: Atom and Molecule Data
      • PHY 541: Atomic Masses; Isotopes; Mass Spectra
      • PHY 542: Electric and Magnetic Moments of Atoms and Molecules
      • PHY 543: Relativistic and Other Corrections for Atoms and Molecules
    • PHY 544: Exotic Atoms and Molecules
    • PHY 545: Macromolecules; Polymer Molecules
    • PHY 546: Atomic and Molecular Clusters
    • PHY 547: Ion Physics
    • PHY 549: Others on Atomic and Molecular Physics
  • PHY 550: Physics of Fluid Media, Plasmas, Electrical Discharges
    • PHY 560: Physics of Gases
      • PHY 561: Gas Kinetics; Gas Diffusion; Transportation Processes in Gases
      • PHY 562: Thermal Properties of Gases
      • PHY 563: Acoustic Properties of Gases
      • PHY 564: Electrical Phenomena in Gases
      • PHY 565: Magnetic Phenomena in Gases
      • PHY 566: Optical Phenomena in Gases
      • PHY 567: Gaseous Dielectrics
      • PHY 569: Others on Physics of Gases
    • PHY 570: Plasma Physics
      Plasma Beam Processing, see FER 786
      • PHY 571: Elementary Processes and Basic Plasma Properties
      • PHY 572: Gas Discharge
        Light Production by Gas Discharge, see ELT 932
      • PHY 573: Plasma Production and Heating
      • PHY 575: Plasma Flow; Magnetohydrodynamics
      • PHY 580: Oscillations and Instabilities in Plasma
      • PHY 584: Plasma Interaction
        Plasma-Wall Interaction in Nuclear Fusion Reactors see NUC 740
      • PHY 588: Plasma Confinement
      • PHY 589: Relativistic Plasma
      • PHY 592: Plasma Simulation
      • PHY 596: Plasma Diagnostics
      • PHY 597: Plasma Devices
      • PHY 599: Others on Plasma Physics
  • PHY 600: Condensed Matter Physics: Liquids and Solids
    • PHY 601: Solid State Physics
    • PHY 602: Solid State Theory; Theory of Condensed Matter
    • PHY 603: Liquid Physics
    • PHY 604: Liquid Theory
    • PHY 605: Structural Examination of Condensed Matter; Examination of the Dynamics of Condensed Matter
      • PHY 606: X-Ray Structural Analysis; X-Ray Absorption Spectroscopy
      • PHY 607: Structural Determination Using Neutrons
      • PHY 608: Structural Determination Using Electrons
      • PHY 609: Electron Diffraction; LEED
      • PHY 611: Structure Determination Using Ions and Heavy Particles (Alpha Back-Scattering Spectroscopy, ...)
    • PHY 617: Nuclear Solid State Physics
    • PHY 619: Other Structure Determination Methods
    • PHY 620: Crystal Physics
      • PHY 621: Crystal Defects; Lattice (Structure) Defects
      • PHY 622: Radiation-Induced Damage in Solids; Channelling; Stopping Power; Positron Annihilation
    • PHY 623: Amorphous Solids; Disordered Condensed Matter; Quasi-Crystals
    • PHY 624: Organic Solids; Polymers; Molecular Crystals
    • PHY 625: Lattice Dynamics; Phonons
      • PHY 626: Oscillations in Disordered Systems
      • PHY 627: Statistical Mechanics of Lattice Vibrations
    • PHY 630: Mechanical and Acoustic Properties of Condensed Matter
      • PHY 631: Mechanical Properties of Solids
      • PHY 632: Acoustic Properties of Solids
      • PHY 633: Mechanical Properties of Liquids
      • PHY 634: Acoustic Properties of Liquids
      • PHY 635: Mechanical and Elastic Waves in Condensed Matter; Optoacoustic Effec
      • PHY 638: High-Pressure Physics of Condensed Matter
    • PHY 640: Thermodynamic Properties of Condensed Matter; Equation of States
      • PHY 641: Phase Transition of Condensed Matter
      • PHY 642: Solubility, Mixing and Segregation of Phases
      • PHY 644: Thermal Characteristics of Condensed Matter, in General
      • PHY 645: Thermomechanical Effects
      • PHY 647: Non-Electronic Transport Properties of Condensed Matter
      • PHY 648: Diffusion and Ionic Conduction in Liquids
      • PHY 649: Diffusion and Ionic Conduction in Solids; Channelling; Hydrogen in Metals; Positrons in Solids; Super-Ion Conductors
    • PHY 650: Structure; Mechanical and Thermal Characteristics of Thin Layers, Surfaces and Interfaces
      • PHY 651: Liquid Surfaces and Interfaces
      • PHY 652: Liquid Films
      • PHY 653: Mechanical, Acoustic and Thermodynamic Properties of Solid-State Surfaces
        • PHY 654: Dynamics of Surfaces and Interfaces
        • PHY 655: Diffusion of Surfaces and Interfaces
        • PHY 656: Processes at Interfaces: Solid-Liquid and Solid-Gaseous; Sorption; Desorption
        • PHY 657: Thermal Characteristics of Solid-Liquid Interfaces
        • PHY 658: Growth, Structure and Epitaxy of Thin Films
          Multilayer Structures, Epitaxical Methode (Electronic Functional Units) see ELT 280
      • PHY 659: Non-Electronic Properties of Thin Films
    • PHY 660: Electron Structure; Electrical, Magnetic and Optical Properties of Condensed Matte
      • PHY 661: Band Structure; Fermi Surface
      • PHY 662: Metal-Insulator-Transition
      • PHY 663: Excitons; Electron-Hole Droplets; Electron-Hole Plasma
      • PHY 664: Polariton, Photon-Phonon and Photon-Magnon Interaction
      • PHY 665: Polarons; Electron-Phonon Interaction; Point-Contact Spectroscopy; Jahn-Teller Effec
      • PHY 666: Collective Excitations; Plasmons; Correlation Energy
      • PHY 667: Local Electron States
      • PHY 668: Defects; Impurities (Doping) and Electron Structure
      • PHY 669: Positron States
    • PHY 670: Electronic Scattering and Transport Processes
      • PHY 671: Electron Conduction in Metals and Alloys (including Amorphous and Liquid Metals); Kondo Effect; Hall Effect; Shubnikov-De-Haas Effe
      • PHY 672: Conductivity of Semiconductors and Isolators, in General
      • PHY 673: Photoconduction; Photoelectricity
      • PHY 674: Acoustoelectrical Effects; Thermoelectrical Effects
      • PHY 675: Magnetoacoustical Effects
      • PHY 676: Noise Processes
      • PHY 677: One and Two-Dimensional Conductors; Organic Conductors
    • PHY 685: Semiconductor Physics (including Physical Properties of Semiconductors
      Semiconductor Materials for Electrical Engineering, see ELT 072 ff
      Semiconductor Electronics, see ELT 230 ff
      Semiconductor Lasers, see PHY 373
      Conductivity and Charge Transfer in Semiconductors, see PHY 672
      Photoconductivity, see PHY 673
      • PHY 686: Semiconductor Theory (Models of Electronic Structure...)
      • PHY 687: Organic Semiconductors
      • PHY 688: Amorphous Semiconductors
      • PHY 689: Liquid Semiconductors
      • PHY 690: Elemental Semiconductors (including Hydrogenated Silicon)
      • PHY 691: Compound Semiconductors
        • PHY 692: II-VI Semiconductors; II-V Semiconductors
        • PHY 693: III-V Semiconductors
        • PHY 694: IV-IV Semiconductors
      • PHY 695: Transitional Metal Compounds as Semiconductors
      • PHY 696: Doped Semiconductors
        Doping, see ELT 290 ff
        Electronic Structure of Defects, see PHY 668
      • PHY 697: Low-Dimensional Semiconductor Systems, in General (including Semiconductor Thin Films, Semiconductor Surfaces and Interfaces) Particularly Non-Electronic Propertie
        Electronic Structure and Electronic Properties, see PHY 701
      • PHY 699: Other Semiconductors; Others on Semiconductor Physics
    • PHY 700: Electronic Structure and Electronic Properties of Low-Dimensional Systems (including Thin Films, Surfaces and Interfaces
      Optical Properties of Thin Films and Interfaces, see PHY 781
      • PHY 701: Low-Dimensional Semiconductor Systems (including Semiconductor Thin Films, Semiconductor Surfaces and Interfaces
      • PHY 702: Heterostructures
      • PHY 703: Superlattices; Multi-Layered Systems
      • PHY 704: Nanostructure, Nanostructured Material
      • PHY 705: Quantum Well
      • PHY 706: Quantum Wire, Quantum Dot, Nanoparticles
        Nanoparticles in General, see TEC 031
      • PHY 709: Electronic Properties of Other Low-Dimensional Systems
    • PHY 710: Superconductivity; Quantum Fluids; Quantum Solids
      • PHY 711: Theory of Superconductivity
      • PHY 712: General Properties of Superconductivity
      • PHY 713: Fluctuations and Critical Phenomena of Superconductivity
      • PHY 714: Tunnelling in Superconductors; Josephson Effect
        Josephson Element, see ELT 372
      • PHY 715: Superconducting Films
      • PHY 716: Special Superconductors (A15 Compounds, High-Temperature Superconductors,...
      • PHY 717: Superfluidity; Solid and Liquid Helium, Quantum Fluids and Solids
      • PHY 719: Others on Superconductivity and Superfluidity
    • PHY 720: Solid-State Magnetism
      • PHY 721: Theory of Solid-State Magnetism
      • PHY 722: Dia- and Paramagnetism
      • PHY 723: Magnetically Ordered Material, in General (Spin Waves, Magnetic Phase Transitions,...)
      • PHY 730: Special Magnetic Materials
        • PHY 731: Ferromagnetics
        • PHY 732: Antiferromagnetics
        • PHY 733: Ferrimagnetics; Ferrites
        • PHY 734: Amorphous Magnetic Materials; Spin Glasses
        • PHY 735: Magnetic Liquids
        • PHY 736: Dilute Magnetic Alloys
      • PHY 737: Domain Effects; Hysteresis
      • PHY 738: Surface Magnetism
      • PHY 739: Magnetic Thin Films
      • PHY 741: Magnetomechanical, Magnetoelectric and Magnetocaloric Effects
      • PHY 749: Others on Solid-State Magnetism
      • PHY 750: Magnetic Resonances in Condensed Matter
        • PHY 751: Electron Spin Resonance (ESR) in Condensed Matter; Acoustic Paramagnetic ESR; Muon-Spin Rotatio
        • PHY 752: Diamagnetic and Cyclotron Resonance
        • PHY 753: Ferromagnetic, Ferrimagnetic etc. Resonance
        • PHY 754: Nuclear Magnetic Resonance in Condensed Matter
        • PHY 755: Magnetic Double Resonance; ENDOR (Electron Nuclear Double Resonance)
    • PHY 756: Mössbauer Effect; Nuclear Resonance Fluorescence; Gamma Spectroscopy in Solid State Physics
      • PHY 757: Gamma-Gamma Angular Correlation; Angular Distribution of Gamma Rays (PAC, PAD, ...) in Solid State Physics
    • PHY 760: Dielectric Properties and Materials; Isolator Physics
      • PHY 761: Dielectric Breakdown and Space-Charge Effects
      • PHY 762: Dielectric Films; Insulating Films
      • PHY 763: Piezoelectricity and Electrostriction
      • PHY 764: Pyroelectric and Electrocaloric Effects
      • PHY 765: Ferroelectricity and Antiferroelectricity
      • PHY 766: Special Dielectric Materials (Dielectric Liquids; Ceramics) Electrets, Gaseous Dielectrics, ...)
      • PHY 767: Electric Resonance
      • PHY 769: Others on Dielectric Properties
    • PHY 770: Optical Properties; Spectroscopy and Other Interactions of Condensed Matter with Particles and Radiation
      • PHY 771: Theory of Optical Properties
      • PHY 772: Optical Properties (Optical Activity, Dichroism, Electrooptical and Magnetooptical Effects etc.
      • PHY 773: Infrared and Raman Spectra
      • PHY 774: Brillouin and Rayleigh Scattering
      • PHY 775: Visible and Ultraviolet Spectra
      • PHY 776: Induced Emission
      • PHY 777: Absorption of Impurities and Defects; Colour Centres; Spectral Hole-Burning
      • PHY 778: Photoluminescence
      • PHY 779: Other Luminescences
      • PHY 781: Optical Properties of Thin Films and Interfaces
      • PHY 782: Other Interactions of Matter, Particles and Radiation (Positrons, X-Rays, Pixe, …
      • PHY 789: Other Optical Properties
      • PHY 790: Particle Emission and Collision Phenomena; Sputtering
        • PHY 791: Collision Phenomena (Auger Emission, Secondary Emission, Electron Spectroscopy, Els, Ion Scattering Spectroscopy, ...
        • PHY 792: Thermionic Emission
        • PHY 793: Photoemission and Photo-Electron Spectra (EELS)
        • PHY 794: Field Emission and Field Ionization
        • PHY 795: Exo-Electron Emission
        • PHY 796: Resonance Tunnelling
  • PHY 800: Interdisciplinary Physics
    • PHY 802: Growing of Crystals
    • PHY 810: Archaeometry; Physical Methods in Archaeology
  • PHY 820: Biophysics
    • PHY 821: Molecular Biophysics (Proteins, Enzymes, DNA, RNA, Hormones, ...)
    • PHY 822: Thermodynamics of Biological Systems
    • PHY 823: Biophysics of Membranes
    • PHY 824: Biophysics of Cells and Tissue
    • PHY 825: Biophysics of Neurophysiological Processes; Biological Information Processing
      • PHY 826: Physiological and Psychological Optics
      • PHY 827: Physiological and Psychological Acoustics
      • PHY 828: Speech Perception
    • PHY 829: Biomagnetism
    • PHY 830: Biological Effects of Radiation; Radiation Biology
      • PHY 831: Biological Effects of Sound / Noise and High Pressure
      • PHY 832: Biological Effects of Electromagnetic Fields; Elektrosmog
      • PHY 833: Radiation Biology
    • PHY 834: Structure Determination of Biologic Molecules and Systems (Proteins, DNA, …)
    • PHY 840: Biomechanics
      • PHY 841: Biologic Fluid Mechanics; Biorheology
    • PHY 850: Biophysical Tools / Instruments and Methods
      • PHY 855: Biosensors
    • PHY 865: Bio-Cybernetics
    • PHY 870: Environmental Biophysics / Ecophysics
  • PHY 900: Astronomy; Astrophysics
    • PHY 901: Celestial Mechanics
    • PHY 902: Astrometry; Spherical Astronomy
    • PHY 903: Astrophysics
    • PHY 904: Observatories
    • PHY 905: Astronomical Instruments
      • PHY 906: Optical Telescopes
      • PHY 907: Radio Telescopes
      • PHY 909: Other Astronomical Instruments
    • PHY 910: Experimental Methods in Astronomy
      • PHY 911: Astro-Photography and Astro-Photometry
      • PHY 912: Astro-Spectroscopy
      • PHY 913: Polarimetry in Astronomy
      • PHY 914: Interferometry in Astronomy
      • PHY 915: Image Processing in Astronomy
      • PHY 916: Data Processing and Mathematical Methods in Astronomy
    • PHY 917: Star Catalogues; Constellations ; Star Maps
    • PHY 920: Radioastronomy
    • PHY 921: Infrared Astronomy
    • PHY 922: X-Ray Astronomy
    • PHY 923: Gamma Astronomy
    • PHY 924: Neutrino Astronomy
    • PHY 926: Nuclear Astrophysics; High-Energy Astrophysics; (Class Here Dark Matter unless in PHY 928 or PHY 980Ff)
      Particle Physics in Cosmology, see PHY 982
    • PHY 927: Fluid Mechanics; Magnetic Fields; Plasma in Astrophysics
    • PHY 928: Gravitation and Quantum Theory in Astrophysics
    • PHY 929: Cosmogony
    • PHY 930: Solar System; Planets and Satellites
      Planetary science see also GEO 319
      • PHY 931: Moon
      • PHY 932: Mercury
      • PHY 933: Venus
      • PHY 934: Mars
      • PHY 935: Planetoids
      • PHY 936: Jupiter
      • PHY 937: Saturn
      • PHY 938: Other Planets
      • PHY 939: Planet Atmospheres
      • PHY 940: Comets
      • PHY 942: Meteorites; Meteors
      • PHY 943: Interplanetary Matter (Dust, Gas, ...)
    • PHY 945: Solar Physics
    • PHY 950: Stars; Stellar Astronomy
      • PHY 951: Star Formation; Star Development
      • PHY 952: Stellar Atmospheres
      • PHY 960: Normal Stars
      • PHY 961: Variable Stars; Novae; Peculiar Stars
      • PHY 962: Final Stage of Star Development; Neutron Stars; White Dwarfs
      • PHY 963: Eclipsing Binary Stars; Binary Stars
      • PHY 964: Black Holes
      • PHY 965: Others on Stars
    • PHY 970: Stellar Systems
      • PHY 971: Stellar Dynamics
      • PHY 972: Star Clusters
      • PHY 973: Interstellar Matter; Intergalactic Matter
        Extraterrestrial Geology and Cosmochemistry see GEO 319
      • PHY 974: Galaxies
      • PHY 975: Milky Way
      • PHY 976: Quasars; Radio Galaxies; Active Galaxies
    • PHY 978: Cosmic Radiation
    • PHY 980: Cosmology
      • PHY 981: Gravitation in Cosmology
      • PHY 982: Particle Physics and Cosmology
      • PHY 985: Cosmic Background Radiation
    • PHY 990: Archaeoastronomy
  • PHY 999: Others on Physics and Astronomy