MyWiki:Requested articles/Natural sciences/Physics
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Physicists
[edit source]- Astrid Morreale American Physicist, Born in NY. Alma Matter University of California. Current program manager for the nuclear theory subprogram within the Office of Nuclear Physics (NP) since 2022.
Morreale worked as a staff scientist at Los Alamos National Laboratory, there she authored several papers, including one on gluon saturation alongside, then student, Farid Salazar (https://inspirehep.net/literature/1907111). Dr. Morreale’s research expertise spans heavy ion colliders as well as fixed-target experiments. Her expertise focuses on diverse areas of hadronic and origin of mass physics in terms of underlying theory, experimental methods, and instrumentation. She was the recipient along many of her LHC collaborators the breakthrough prize in physics. https://breakthroughprize.org/Laureates/1/L3992
After receiving her PhD from the University of California in 2009 at the Relativistic Heavy Ion Collider at Brookhaven National Laboratory, Dr Morreale worked at the atomic energy commission in France. She received the French “Habilitation thesis in Physics” from The University of Paris Diderot (https://llr.in2p3.fr/~fleuret/Other/autres.html), the highest title that can be conferred upon a scholar in France. Before becoming a staff physicist at LANL, Dr Morreale was an associate professor at the Engineering School IMT of Nantes and was an external project evaluator for the European Research Council. She has served the chair line of the American Physical Society for the four corners region (https://meetings.aps.org/Meeting/4CS21/APS_epitome) and is a current elected member of the APS committee of Scientific Publications (https://www.aps.org/about/governance/committees/csp).
https://science.osti.gov/np/About/Staff/Astrid-Morreale
https://inspirehep.net/literature/1907111
https://inspirehep.net/authors/1031736
https://www.bnl.gov/newsroom/news.php?a=21361
- Elke-Caroline Aschenauer German experimental particle physicist working at the Brookhaven National Laboratory in Long Island, United States. She is an expert on the nucleon structure and on the parton dynamics in the context of quantum chromodynamics. In 2018, Aschenauer has been awarded the prestigious Humboldt Research Award [Humboldt], attributed by the Alexander von Humboldt Foundation in Bonn, Germany. Berndt Mueller, Brookhaven Lab’s Associate Laboratory Director for Nuclear and Particle Physics, mentioned, “Elke has been one of the driving forces of the RHIC Spin program over the past decade, which culminated in the discovery that gluons are major contributors to the spin of the proton. In addition, she has established herself as one of the global leaders developing the science program of a proposed future Electron-Ion Collider. The Humboldt Research Award recognizes her outsized contributions to the science of nucleon structure.”
- David Berman (physicist), Professor of Theoretical Physics at Queen Mary, University of London. Particular focus on string theory and fundamental theoretical physics, and also known for lots of public engagement work (e.g. appearances on BBC Radio 4) and collaboration with artists like Grenville Davey. Personal webpage can be found here and Google Scholar profile here
- Alain Moise Dikande, Cameroonean physicist, Alexander von Humboldt Fellow [4]
- Alvaro De Rujula (req. 2008-09-17) – theoretical physicist; works for Boston University and CERN; see q:Alvaro De Rujula
- Asher Yahalom (req. pre 2012-01-15) b. 1968; theoretical physicist from Israel; [5]
- Barry Setterfield (b. 1942) Australian physicist [6]
- Bernhard Mecking (once was head of TJNAF; [7]).
- John Fisher (physicist) (1919-2018), physicist; also 15th Chief Scientist of the U.S. Air Force [8], [9]
- Christian Thomsen (physicist) (req. 2015-02-12; b. in 1959) – German physicist, president of TU Berlin, [10]
- Claus Jonsson (req. pre 2012-01-15) Universitat Tübingen; see de:Claus Jonsson
- Conrad Dieterici (1858–1929) (req. pre 2012-01-15); see de:Conrad Dieterici; [11]
- Daniel F. V. James (req. pre 2014-10-15) – professor of quantum optics at the University of Toronto
- David D. Lynch (req. pre 2012-01-15) Delco Electronics Corp; invented Hemispherical Resonator Gyro (HRG); he is actually an engineer; [12]
- David Hochberg (req. pre 2012-01-15) Spanish theoretical physicist; [13]
- David Wallace (philosopher of physics) (b. 1976; Wallace, David S.; Balliol College, Oxford, req. pre 2012-01-15) – [14]
- Dean Karlen – a Canadian physicist d:Q92840429 [15]
- Edouard Tsyganov (b. 1933) experimental physicist who led Joint Institute for Nuclear Research in Dubna, Russia during it's collaboration with Fermi National Accelerator Laboratory on joint studies involving interactions of pions, protons and neutrinos. The collaboration was one of the first scientific endeavors to bridge scientific ties betwene the US and the USSR in the height of the Cold War. The collaboration measured the charge radius of the pion by bombarding electrons with negative pions. [16]
- Or Hen Israeli nuclear physicist and the Class of 1956 CD Associate Professor of Physics at the Massachusetts Institute of Technology, United States. Known for his studies using scattering of high-energy electrons, photons, protons and radioactive ions to understand the nature and formation mechanisms of short-ranged nucleon-correlations in nuclei and the interplay between partonic and nucleonic degrees of freedom in nuclei, and nuclear effects in neutrino interactions for precision oscillation measurements. A co-leader in the development of the ePIC experiment at the U.S. Electron-Ion Collider. Hen was recognized by many fellowships and awards including the APS Stuart J. Freedman award (“For innovative, wide-ranging, experiments that found important manifestations of nuclear neutron-proton short-range correlations”), Alfred P. Sloan Fellowship, DOE Early Career Award, IUPAP Young Scientist Prize, Guido Altareli Award, and others.
- Edward M. Thorndike – one of the originators of the Kennedy–Thorndike experiment, an important proof in Special relativity
- Roy J. Kennedy – the other originator of the Kennedy–Thorndike experiment
- Fu-Kwun Hwang (computer modelling; [17]; National Taiwan Normal University)
- George Abraham Snow (1926-2000) (req. pre 2012-01-15) [18]
- H. Frederick Dylla (req. pre 2012-01-15) Director of American Institute of Physics as of 2014; [19]
- Ian Dell'Antonio (req. 2023-07-21) is an observational cosmologist, currently professor of physics at Brown University. He is a member of the LSST collaboration. [20][21][22][23]
- Igor Smolyaninov (req. pre 2012-01-15) Russian physicist; [24]
- Joel David Green – previous Project Scientist in the Office of Public Outreach at STSci, lead of several Herschel, SOFIA, and ground-based general observer programs, and collaborator in numerous initiatives with JWST – [25]
- L. David Roper (req. pre 2012-01-15) b.1935; US physicist; Ph.D. in theoretical physics from MIT; faculty of Virginia Tech; [26]
- Leo Piilonen (physics of neutrino; [27])
- Richard Kouzes (Physicist); Homeland security, radiation detection, safeguards, neutrino physics, muon tomography;[28]
- Marc H. Brodsky (req. pre 2012-01-15) Director of American Institute of Physics from 1993 to 2007; [29]
- Stephen Chou (physicist) – Joseph C. Elgin Professor of Engineering at Princeton ([30], [31])
- Massimo Corbucci (b. 1954) (req. pre 2012-01-15) – [32]; [33]
- Peter Kazansky, Physicist in Optoelectronics, pioneer of the 5D Optical storage https://www.orc.soton.ac.uk/people/pgk
- Richard Manliffe Sutton (req. pre 2012-01-15 (1900-1966) [34])
- Rolf Landua (req. pre 2012-01-15) [35]
- Samuel L. Marateck, Professor of Computer Science at NYU. Yang-Mills theory and Feynman Diagrams. Author of 7 computer science textbooks. More info [36]
- Shih-I Pai (1913-1996; aeronautical researcher at the University of Maryland [37])
- Song Jin-joo [38]
- Viqar Husain – Theoretical physicist and Professor at the University of New Brunswick. Works in general relativity and quantum gravity. Known for the Husain-Kuchar model, new exact solutions of Einstein's equations, and self-dual gravity; [39]; [40];[41]; [42]
- William Bertozzi (Creator of the experiment which proved mass increasing with speed)
- Ziro Maki (1929–2005) – Pontecorvo–Maki–Nakagawa–Sakata matrix for neutrino flavour oscillations; prediction of the J/ψ meson; 1977 Nishina Memorial Prize laureate; Obituary notice here
- Francesco Caravelli (Physicist) Recipient of the 2017 JR Oppenheimer Distinguished fellowship in Los Alamos for his work on the complexity of memristor interactions (https://en.wikipedia.org/wiki/Neuromorphic_engineering). He is associated with a number of other important findings in Quantum Graphity and in the Functional Renormalization Group in Gravity, in Complexity Economics and Statistical Physics.
- Arjun Berera (Theoretical Physicist) Originally developed the theory of warm inflation. He is known for his work on the Panspermia mechanism "Space dust collisions as a planetary escape mechanism."
- Jos Vermaseren – the man who has been developing FORM ([43])
- Lists of things named after physicists – several (see talk site)
- Σ− atom (similar to a hypernucleus)
- pairing effect of two protons or two neutrons in a nucleus, which increases the binding energy[44]
- Acoustic transition (req. pre-2012-01-17)
- Backgammon model (a model useful in supercooled liquids near the glass transition point. It is related to Boltzmann's entropy formula).
- Boson peak
- Mott–Hubbard insulator (related to Mott insulator)
- Optical transition (see Transition radiation; req. pre-2012-01-17)
- Piezospectroscopic tensor (req. pre-2012-01-17)
- Reduced chemical potential (req. pre-2012-01-17)
- Semiconductor equilibrium (req. pre-2012-01-17)
- Slip model (req. pre-2012-01-17)
- Spin-peierls material (CuGeO and spin-peierls cuprate CuGeO3)
- Storage time (req. pre-2012-01-17)
- Wemple Di-Domenico single oscillator model
- Vortex matter (appearance of vortices in superconductor in magnetic field)
- Linear acoustic equations
- M-Carbon – crystalline state of carbon, other than diamond
- Near-field acoustic holography (NAH)
- Normal hearing level (see Minimum audibility curve)
- Sabine's formula (mentioned in Wallace Clement Sabine)
- Sound perspective (Distant sounds seem more diffuse. Why?)
- Sound reproducer lamp (Sound systems that use lamps to recreate sound – [45])
- Statistically optimal near-field acoustic holography (SONAH)
- Teager–Kaiser energy operator, aka Teager energy operator, TKEO or TKO, developed by Herbert M. Teager, Shushan M. Teager and James Kaiser
![[45]](http://www.donsbulbs.com/bulbs/g623/l/ge1956lampbulletin/33.gif){kind=link}
- Body voltage
- Caduceus coil see: Resistor wirewound bifilar
- Canted magnet
- Charge carrier relaxation – There is an article about Two temperature model, which is closely related to charge carrier relaxation dynamics
- Charge pumping method
- Conical magnet
- Coulomb kernel [47]
- CoupleFil – software for cross-coupled filter design
- Darwin approximation (Redirects to Darwin Lagrangian)
- Efros-Shklovskii variable-range hopping law (see Variable-range hopping)
- Electric impermeability – Mentioned in [48] in the chapter about Electro-Optics
- Electrical losses – There are already articles to the closely related topics of Joule heating and Copper loss, and a subsection at Electric power transmission#Losses; furthermore, Resistive loss redirects to "Joule heating" and Load loss redirects to "Copper loss". I feel that these are all distinct ideas, as is my proposition "Electrical losses". I think "resistive loss" and "load loss" should instead redirect to a new "Electrical losses" article, which would have real-world explanations, mathematical equations and also explain the differences between all of the above ideas, all in a single article. BigSteve (talk) 19:38, 9 April 2013 (UTC)
- Faraday's Sunburst Homopolar Generator (N-Machine) (already exists: Homopolar generator)
- Ferrotoroidic (see Toroidal moment)
- Flame probe – A device to measure electrical fields using the plasma of a controlled flame Michael McGinnis (talk) 01:33, 4 September 2016 (UTC)
- Foil electret (mentioned very briefly at electret microphone)
- Ground current pollution – AKA "Tingle Current"
- Helical magnet
- Introductory electromagnetism – electromagnetism in education
- Magnetic field power spectrum
- Magnetologic gate
- Magnetologic
- Metatronics – a merger of electronics, photonics, and magnetics
- Operational amplifier compilation
- Percolation-hopping conductance
- PhotonDelta
- Pith ball [49]
- PowerMat
- Radiative width
- Railway dynamics
- Screw pinch (1 2; Similar to Z-pinch and Theta pinch)
- Septum magnets
- Shunt choke
- Switched reluctance machine
- Thetatron [50]
- Timerons (is a combination of CPU time and the time spent for i/o)
- Tropical wave (radio), a Short wave (?) used between the Tropics, 2300 kHz – 5060 kHz (120 m – 60 m). See: pt:Onda tropical (radiodifusão) and es:Ondas tropicales (radiodifusión)
- Virtual cathode
- Nuclear insecurity or Nuclear stochastics [54] [55] [56] Stochastic gradient descent for optimization for nuclear systems Lua error in Module:Citation/CS1/Configuration at line 2172: attempt to index field '?' (a nil value).; Stochastic Effects; Application in Nuclear Physics Lua error in Module:Citation/CS1/Configuration at line 2172: attempt to index field '?' (a nil value).; The Medical Anthropologies in Brazil Lua error in Module:Citation/CS1/Configuration at line 2172: attempt to index field '?' (a nil value).</ref>
- Antisymmetrized molecular dynamics – see [57]
- Curie plot – a means to count the number of observed particles in interval ranges, as in a histogram of particle energies
- Gamma-ray emission spectrum (data page) an index of gamma ray emission energies (the kind measured in Gamma spectroscopy). For example, K-40's emission is a broad peak at around 1461 keV.
- Geiger–Klemperer ball counter – apparently commonly used in research in the 1930s; see this Google search
- Introduction to radioactivity (or Introduction to radioactive decay) as the subject can be difficult for some people.
- Methods in nuclear physics
- Nuclear fuel cell – Would be nice for people to explain it, and whether it would be theoretically possible or even efficient; Seems it might just be an imaginary tale of Hollywood
- Should this request link to this page Radioisotope thermoelectric generator? --Tobias1984 (talk) 16:02, 21 September 2012 (UTC)
- Pion photoproduction
- Principles of nuclear magnetism – some of Nuclear magnetic moment may be intimidating, but there are many links from there
- Radiopurity – Freedom from radioactive contamination. The word is used in numerous low-background physics experiments' articles, and might be worth a brief definition. Or maybe a redirect?
- Real physical nuclear models
- Reverse Compton edge
- Upgraded SG-II & SG-III – SG-III is a laser facility (200kJ/48 beams) which is expected to be completed in 2012. [58] [59]
Optics and wave theory
[edit source]- Alvarez lenses
- Angle of deviation
- Anti-Stokes Raman Laser (ASRL)
- Beam walking
- Binary optics
- Channel waveguides (integrated optical waveguide on a substrate)
- ColorMatch RGB
- Cross gain modulation (XGM)
- Curve of growth (spectroscopy)
- Deuteranomalous (see Color blindness#Anomalous trichromacy)
- DKL color model
- Eau-de-nil
- Equifrequency surface
- External cavity diode laser
- Force clamp
- Four-quadrant phase mask (FQPM)
- Freeman resonance
- Fresnel biprism
- Fresnel's distance (in single slit diffraction; see Fresnel zone)
- Geometrical scattering - https://ieeexplore.ieee.org/document/9842823
- Gordon–Haus effect
- Heat retention
- Illuminant D50 (although D65 is more frequently used, actually D50 also ought to have an independent article because when viewing prints, D50 rather than D65 should be used [60])
- Interference imaging
- Ira Sevaya – an optical illusion seen on mountains, like Adam's Peak, in which the rising sun appears prior to sunrise due to Total internal reflection. On this mountain, it is said that the sun appears 3 times. See [61] -- needs to belong to see Category:Atmospheric optical phenomena
- Lenticular autostereoscopy (see Lenticular lens)
- Long wave radiation – (currently redirect to disambiguation; see Thermal radiation, Outgoing longwave radiation).
- Mode competition
- Near-field scattering – mentioned in Speckle_(interference)#Speckle_pattern
- NVTherm – infrared vision prediction software
- Optical bottle beam
- Optical contacting
- Optical parametric chirped-pulse amplification (OPCPA)
- Optical solenoid beam
- PAID histogram
- Phase disolcations – as used to mean optical vortex
- Phase locking in lasers
- Phase singularity lines – as used to mean Optical vortex
- Pixels per degree
- Pockels readout optical modulator
- Prism formula; A + D = i + r
- Pulsed-laser photoacoustics
- Resolution (measurement) – intended as umbrella dabconcept article generalizing optical resolution, display resolution, etc.
- Relay mirror
- RIMM RGB
- Roland grating
- Running difference image
- Semiconductor saturable absorber mirror (SESAM)
- Setterfield–Norman analysis
- Spatial hole burning
- Spatial walk-off – RP Photonics' Encyclopedia has a good description
- Spectral imagery
- Spectrodensitometer – instrument, measures light
- Spectrum Degrees – colour measurement system that defines hue using the physical structure of light [62]
- Triphoton
- Kramers–Kronig inversion – of the reflectance spectra
- Optical Solenoid Beam
- Photoelectric scanner (PES)
- Piezoelectric mirror – mentioned in Piezoelectricity#Actuators for laser alignment
- Surface light source – 1.3 million raw Google hits
- Thermo-optic switch
- Pseudo-spin-1/2 particle (Huelga S F, Rivas A and Plenio M B 2012 Phys. Rev. Lett. 108 160402)
- Abbott–Farhi model
- Anomalous gauge boson interaction
- Anomaly inflow
- Anticalcium
- Anticarbon
- Anti-de Sitter supersymmetry
- Anti-hypertriton
- Antilithium
- Antimolybdenum
- Antiplutonium
- Antiuranium
- Atomic orbital collapse [63]
- Bare vertex approximation
- Bern–Kosower formalism
- Catalyzed big bang nucleosynthesis
- Center vortex (gauge theory)
- Chaotic quantization
- Charge condensate
- Chiral quantum electrodynamics
- Closed time path formalism
- Collective symmetry breaking
- Conformal compensator
- Conformal coupling
- Connes–Lott model
- Cornwall–Jackiw–Tomboulis effective action
- Coulomb string tension
- Degrader (mass spectrometry) – Something used in mass spectrometers to modify the beam somehow. Mentioned lots in this presentation (which also shows lots of mass spectrometer types I've never seen before—those might be good to write articles on too, if notable)
- Del Giudice, Di Vecchia, Fubini (DDF states) (string theory)
- Delta(I) 1/2 rule
- DHR analysis
- Dielectric traveling wave tube
- Dispersion relations (QFT) (see Dispersion relation)
- Eguchi–Kawai model ([64] named after Tohru Eguchi and Hikaru Kawai)
- Electron positron lattice
- Electroproduction (particle production in particle accelerators)
- Etheron
- Fayet–Sohnius hypermultiplet (named after Pierre Fayet and Martin F. Sohnius)
- Fiducial region (or volume), the core portion of a detector in which events are counted.
- Four-body decay
- Froggatt–Nielsen mechanism
- Gap equation
- Generalized uncertainty principle (GUP) (Maybe redirect to Quantum gravity)
- Ghost loop
- Glauber–Gribov cascade (or Glauber–Gribov approach – multiple parton scatterings; named after Roy J. Glauber and Vladimir Gribov)
- Gluon equation
- Goldstone Lunar Ultra-high energy neutrino Experiment
- Gravito-magnetic monopole
- GPS implant
- Haag–Ruelle scattering
- Helicity conservation
- Higher dimensional supersymmetry
- Holdom particle
- Holographic renormalization group
- Hosotani mechanism
- Howe–Stelle–Townsend hypermultiplet
- [International Particle Physics Outreach Group (IPPOG)]
- Inclusive decays
- Isotropic sphere
- Julia-Zee dyon
- Kinetic free energy – analogous to thermodynamics free energy of a system. See also Free energy which refers to objects, not systems. An example is the abundant free energy available in a planet's fluid atmospheres.
- Kinetic mixing
- K-shell transition
- Lattice string theory (related to Lattice QCD)
- Lee-Yang model
- Light-induced drift
- Liouville action
- List of atomic models
- Luescher term
- Mass texture
- Millicharged fermion
- Minimal string theory
- Mirror atom
- Mirror positronium
- Multiple point principle
- Nonequilibrium quantum field theory
- No-scale supergravity
- Omega B Baryon
- One-loop effective potential
- Orbitally rearranged monoatomic elements
- Oxygen deficiency hazard
- Paschen notation
- Photon–gluon fusion – creation process for hadrons
- Pinch approximation
- Pion superfluid
- Polyneutron theory
- Precision tests of electroweak theory
- Process physics – An information-theoretical paradigm for the modelling of reality. Official
- Proton–proton bremsstrahlung
- PTOLEMY – A relic neutrino detector under construction [65]
- Pyrgon – "massive modes corresponding to quantized excitations of the fifth dimension" [66]
- Quantum Commutative Constrained Field
- Quark–quark correlations
- Quasiprimary field
- Radial quantization
- Rajaram Goundar Duality Effect
- Reheating
- Schwinger multichannel method
- Segal's axioms
- Siberian snake Siberian Snakes and Spin-Flipping in Storage Rings
- Skeleton diagram
- Sliding VEV mechanism
- Slow positron
- Status of loop quantum gravity
- String ball
- Sub-Particle Acceleration
- Thirring sine-Gordon duality
- Top-antitop meson
- Two particle irreducible
- Uncertain Geometry
- Wess–Zumino consistency condition (related to Wess–Zumino model)
- Wick–Cutkosky model
- Wilson–Ginsparg action
- Beam acoustic instability (Plasma instability; see Instability)
- Braginskii equation see [67]
- Cherenkov instability (Plasma stability; see Instability; [68])
- Chute instability (Plasma instability; see Instability)
- Coalescence instability (Plasma instability; see Instability)
- Collapse instability (Plasma instability; see Instability)
- Continuous Optical Discharge (Continuous laser produced plasmas in gases at high pressures are sources of broadband UV-VIS-IR radiation) ([2],[3])
- Counter-streaming instability (Plasma instability; see Instability)
- Cyclotron instabilities (Plasma instability; see Instability for list of Cyclotron instabilities to define)
- Double emission instability (Plasma instability; see Instability)
- Electron cyclotron maser (see: [69], [70])
- Fan instability (Plasma instability; see Instability)
- Filamentation instability (Plasma instability; see Instability; may be synonymous with or a section could be added to Pinch (plasma physics))
- Free electron maser instability (Plasma instability; see Instability)
- Gyrotron instability (Plasma instability; see Instability)
- Helical instability / Helical kink instability (Plasma instability; see Instability)
- Ion beam instability (Plasma instability; see Instability)
- Magnetic drift instability (Plasma instability; see Instability)
- Non-Abelian instability (Plasma instability; see Chromo–Weibel instability)
- Non-linear coalescence instability (Plasma instability; see Instability)
- Pair instability (Plasma instability; see Plasma stability#List of plasma instabilities)
- Peratt instabilities (Anthony Peratt; stacked toroids; Plasma instability; see Instability)
- Sausage instability (Plasma instability; see Instability)
- Slow drift instability (Plasma instability; see Instability)
- Tearing mode instability (Plasma instability; see Instability)
- Wave heated plasma – similar to capacitively coupled plasma and [inductively coupled plasma] in that it is typically radio frequency (or microwave). Examples include helicon discharge and electron cyclotron resonance.[4]
- Weak beam instability (Plasma stability; also coherent instability of beam interactions; see Instability, Plasma acceleration)
- Ahmad–Cohen (see N-body simulation)
- Allowed/forbidden electronic transitions – Another term for Selection rule (also Forbidden mechanism)
- Anti-material bio-catalysts
- Cell Diagram
- Changing color objects in a cold place
- Color changing ink [71]
- Density holes [72]
- Double-sided Feynman diagrams
- Easy ways to exercise
- Fluorescence up-conversion – laser spectroscopy technique
- History of elements (See Popular Science "The Discovery of the Elements" August 1872)
- Isotope exchange
- Kac potential
- Landau expansion
- Lepion
- LEPS potential
- Liquid color measurement indexes
- Major and minor rotamer signals (NMR Spectroscopy)
- Meninga coccemia
- Mesostructural
- MIP energy
- Parity-violating energy difference
- Particulate theory
- Pechini method of powder synthesis
- Plasma Theory
- Polyhide
- Rayleigh distillation
- Refractive index increment
- Regge behavior
- Residual gas analysis
- Self-consistent potential
- Single-molecule spectroscopy
- Skeletal catalyst
- Spectral profile
- Vibrational rotational energy
- X-ray microdiffraction
- 4-Heptanol
- A index (req. pre-2012-01-15)
- Aa index (req. pre-2012-01-15 [73])
- Active dark filament (req. pre-2012-01-15)
- Active prominence region (req. pre-2012-01-15)
- Active surge region (req. pre-2012-01-15)
- Air Force Space Forecast Center (req. pre-2012-01-15)
- Ak index (req. pre-2012-01-15)
- Alaskan Meteorological Data System (req. pre-2012-01-15)
- Am index (req. pre-2012-01-15)
- An index (req. pre-2012-01-15)
- Ap index (req. pre-2012-01-15)
- Arcade (solar physics) (req. pre-2012-01-15)
- Arch filament system (req. pre-2012-01-15)
- Arch filament system (req. pre-2012-01-15)
- As index (req. pre-2012-01-15)
- Auroral oval (req. pre-2012-01-15)
- Background X-ray level (req. pre-2012-01-15)
- B-angle (req. pre-2012-01-15)
- Bipolar magnetic region (req. pre-2012-01-15)
- Bright point (req. pre-2012-01-15)
- Bright surge on the disk (req. pre-2012-01-15)
- Bright surge on the limb (req. pre-2012-01-15)
- Burst (solar physics) (req. pre-2012-01-15)
- C index (req. pre-2012-01-15)
- Castelli U (req. pre-2012-01-15)
- Centimeter burst (req. pre-2012-01-15)
- Central meridian distance (req. pre-2012-01-15)
- Central meridian passage (req. pre-2012-01-15)
- Chromospheric event (req. pre-2012-01-15)
- Ci index (req. pre-2012-01-15)
- City model (req. pre-2012-01-15)
- Comprehensive flare index (req. pre-2012-01-15)
- Continuum storm (req. pre-2012-01-15)
- Coronal stream (req. pre-2012-01-15)
- Coronal transients (req. pre-2012-01-15) – not sure about redirect to Coronal transient
- Corrected geomagnetic coordinates (req. pre-2012-01-15)
- Crane global model (req. pre-2012-01-15)
- Crane Model for Satellite Paths (req. pre-2012-01-15)
- Crane two-component model (req. pre-2012-01-15)
- Crochet (solar physics) (req. pre-2012-01-15)
- Cusp (solar physics) (req. pre-2012-01-15)
- D component of the geomagnetic field (req. pre-2012-01-15)
- DAH model (req. pre-2012-01-15)
- Dark surge on the disk (req. pre-2012-01-15)
- Differential charging (req. pre-2012-01-15)
- Differential particle flux (req. pre-2012-01-15)
- Dip equator (req. pre-2012-01-15)
- Disappearing solar filament (req. pre-2012-01-15)
- Disk and limb activity summary (req. pre-2012-01-15)
- Ducting (radio propagation) (req. pre-2012-01-15)
- Eccentric dipole (req. pre-2012-01-15)
- Emission measure (req. pre-2012-01-15)
- Environmental attenuation model (req. pre-2012-01-15)
- Environmental research laboratories (req. pre-2012-01-15)
- Equatorial spread-F reshaping of equatorial region ionosphere after sunset. Berkner and Wells [1934], Woodman and Lahoz [1976], Basu and Kelley [1979]
- Eruptive prominence on limb (req. pre-2012-01-15)
- Eruptive (req. pre-2012-01-15)
- Es layer (req. pre-2012-01-15)
- Estimated hemispherical power input (req. pre-2012-01-15)
- FoEs (req. pre-2012-01-15)
- FoF2 (req. pre-2012-01-15)
- Follower spot (req. pre-2012-01-15)
- Gamma (unit of magnetic field intensity) (req. pre-2012-01-15)
- GEOALERT (req. pre-2012-01-15)
- Geomagnetic activity (req. pre-2012-01-15)
- Geomagnetic elements (req. pre-2012-01-15)
- Geomagnetic storm level (req. pre-2012-01-15)
- Geomagnetic time (req. pre-2012-01-15)
- Gradual commencement (req. pre-2012-01-15)
- H component (req. pre-2012-01-15)
- H-component of the geomagnetic field (req. pre-2012-01-15)
- Hale boundary (req. pre-2012-01-15)
- Hemispherical power input (req. pre-2012-01-15)
- High Energy Proton and Alpha Detector (req. pre-2012-01-15)
- High Latitude Monitoring Station (req. pre-2012-01-15)
- High-speed stream (req. pre-2012-01-15)
- Homologous flare (req. pre-2012-01-15)
- Inclination of the geomagnetic field (req. pre-2012-01-15)
- Initial phase (req. pre-2012-01-15)
- Integral particle flux (req. pre-2012-01-15)
- International Consortium of Magnetic Observatories (req. pre-2012-01-15)
- International Solar-Terrestrial Program (req. pre-2012-01-15)
- International standard relative sunspot number (req. pre-2012-01-15)
- International Sun Earth Explorer-3. (req. pre-2012-01-15)
- International Ursigram and World Days Service (req. pre-2012-01-15)
- Invariant magnetic latitude (req. pre-2012-01-15)
- Inversion line (req. pre-2012-01-15)
- ITU rain attenuation model for satellites (req. pre-2012-01-15)
- ITU rain attenuation model (req. pre-2012-01-15)
- Km index (req. pre-2012-01-15)
- Leader spot (req. pre-2012-01-15)
- Limb (solar physics) (req. pre-2012-01-15)
- Limb flare (req. pre-2012-01-15)
- Lobe (solar physics) (req. pre-2012-01-15)
- Long duration (req. pre-2012-01-15)
- Longitudinal component (req. pre-2012-01-15)
- Loop prominence system (req. pre-2012-01-15)
- M(3000) (it is either MUF(3000) or M(3000)F2; MUF(3000) is the maximum usable frequency at which a radio wave can be reflected and received at a horizontal distance of 3000 km. req. pre-2012-01-15)
- Magnetic bay (req. pre-2012-01-15)
- Magnetic local time (req. pre-2012-01-15)
- Magnetic sunspot classifications (req. pre-2012-01-15)
- Magnetopause current sheet (req. pre-2012-01-15)
- MAGSTORM (req. pre-2012-01-15)
- Main phase (req. pre-2012-01-15)
- Medium Energy Proton and Electron Detector (req. pre-2012-01-15)
- Micropulsation (req. pre-2012-01-15)
- Microwave burst (req. pre-2012-01-15)
- Mound prominence (req. pre-2012-01-15
- National Environmental Satellite Service (req. pre-2012-01-15)
- National Geophysical and Solar-Terrestrial Data Center (req. pre-2012-01-15)
- National Solar Observatories (req. pre-2012-01-15)
- National Space Weather Program
- Naval Astronautics Group (req. pre-2012-01-15)
- Noise storm (req. pre-2012-01-15)
- Non-great-circle propagation (req. pre-2012-01-15)
- Northern Meteorological Data System (req. pre-2012-01-15)
- On-line data system (req. pre-2012-01-15)
- P.f.u. (req. pre-2012-01-15)
- P-angle (req. pre-2012-01-15)
- Pannekoek–Rosseland Field an electric field induced by gravity in some stars
- Particle flux unit (req. pre-2012-01-15)
- Phantom command (req. pre-2012-01-15)
- Photospheric network (req. pre-2012-01-15)
- Plage (solar physics) (req. pre-2012-01-15)
- Plage corridor (req. pre-2012-01-15)
- Point-to-point propagation model (req. pre-2012-01-15)
- Polar crown (req. pre-2012-01-15)
- Polar plume (req. pre-2012-01-15)
- Polar rain (req. pre-2012-01-15)
- Pore (solar physics) (req. pre-2012-01-15)
- Post-flare loops (req. pre-2012-01-15)
- Preheating (req. pre-2012-01-15)
- Proton event (req. pre-2012-01-15)
- Proton flare (req. pre-2012-01-15)
- Q index (req. pre-2012-01-15)
- Quiet (solar physics) (req. pre-2012-01-15)
- Quiet day curve (req. pre-2012-01-15)
- Radar aurora (req. pre-2012-01-15)
- Radio burst (req. pre-2012-01-15)
- Region number (req. pre-2012-01-15)
- Regional Warning Center (req. pre-2012-01-15)
- Remote Geophysical Observing Network (req. pre-2012-01-15)
- Rigidity (solar physics) (req. pre-2012-01-15)
- Rudimentary (solar physics) (req. pre-2012-01-15)
- S component (req. pre-2012-01-15)
- Satellite anomaly (req. pre-2012-01-15)
- Science Institute (req. pre-2012-01-15)
- Short wave fade (req. pre-2012-01-15)
- Simultaneous flares (req. pre-2012-01-15)
- Solar coordinates (req. pre-2012-01-15)
- Solar Electro-Optical Network (req. pre-2012-01-15)
- Solar Geophysical Activity Summary (req. pre-2012-01-15)
- Solar Influences Data Analysis Center (req. pre-2012-01-15)
- Solar sector boundary (req. pre-2012-01-15)
- Space Environment Laboratory Solar Imaging System (req. pre-2012-01-15)
- Space Environment Laboratory (req. pre-2012-01-15)
- Space Environment Monitor (req. pre-2012-01-15)
- Space Environment Services Center (req. pre-2012-01-15)
- Space Forecast Center (req. pre-2012-01-15)
- Space Physics Analysis Network (req. pre-2012-01-15)
- Spread F (req. pre-2012-01-15)
- STRATWARM (req. pre-2012-01-15)
- Subflare (req. pre-2012-01-15)
- Sudden commencement (req. pre-2012-01-15)
- Sudden impulse (req. pre-2012-01-15)
- Sunspot classification (req. pre-2012-01-15)
- Sympathetic flare (req. pre-2012-01-15)
- Television and Infrared Radiation Observation Satellite (req. pre-2012-01-15)
- Tenflare (req. pre-2012-01-15)
- The Art of Projecting Concentrated Non-dispersive Energy through the Natural Media – Written by Nikola Tesla
- T-index (req. pre-2012-01-15)
- Total Energy Detector (req. pre-2012-01-15)
- Trans-equatorial propagation (req. pre-2012-01-15)
- Two-ribbon flare (req. pre-2012-01-15)
- U-burst (req. pre-2012-01-15)
- Unipolar magnetic region (req. pre-2012-01-15)
- United States Space Forecast Center (req. pre-2012-01-15)
- Unsettled (solar physics) (req. pre-2012-01-15)
- Upsets (solar physics) (req. pre-2012-01-15)
- White-light flare (req. pre-2012-01-15)
- Wing (spectroscopy) (req. pre-2012-01-15)
- World Warning Agency (req. pre-2012-01-15)
- X-ray flare class (req. pre-2012-01-15)
- X-ray flare termination (req. pre-2012-01-15)
- Z component of the geomagnetic field (req. pre-2012-01-15)
- Zurich sunspot classification (req. pre-2012-01-15)
- Zurich sunspot number (see Wolf number; req. pre-2012-01-15)
- Achronal boundaries
- Affine torsion field
- Antimatter black hole
- Antimatter white hole
- Asymptotically simple spaces (see Asymptotically flat spacetime)
- Bekenstein conformal black hole (Maybe redirect to Black hole thermodynamics)
- Black hole remnant
- Bondi news Tensor related to outgoing and incoming radiation
- Bonnor–Vaidya metric
- Brane bubble
- Burke theorem
- Causal curves
- Causality conditions
- Charged tachyon
- C-metric
- Energy–momentum complexes
- Fierz–Pauli theory ([74], [75], [76])
- Frame dragging and equatorial forcing
- Friedel-Starodubtsev action
- Galilean gravity – a scalar-tensor modified gravity theory in which the scalar field displays Galilean Invariance.
- General relativity and quantum mechanics Could we have a single article explaining (i) the conflicts between these theories and (ii) the attempts to resolve them?
- Gravitational self-energy
- Gravitational wind
- Higher derivative gravity
- Inflationary energy
- Inhomogeneous rotation group
- Initial value formulation
- Lapse field
- Modified dispersion relation
- Moller energy
- Nutku–Halil solution
- Orders of magnitude (gravitational waves)
- Polar metric
- Relativistic reflection mentioned in [77]
- Schwarzschild bubble
- Scri script 'i' used to denote lightlike infinities in a Penrose diagram
- Self dual fields
- Status of general relativity
- The Gravitational Isolator [78]
- Trapped surface theorem
- Vainshtein mechanism ([79], [80], [81])
- Quantum Creation – A theory about the causality of the big bang created by Alexander Vilenkin.
- 10j symbol
- 15j symbol
- Adiabatic algorithms
- Backflow (physics) – a phenomenon where a particle moves backward in relation to the force it applies, like if an object being pushed would cause them to go toward them, contradicting common sense
- Bernoulli noise
- Clock ambiguity a strange, little-known phenomenon on the fringe of understanding linking to parallel universes and such
- Diabatic limit
- Dirac-Frenkel variational principle An explanation to the ideas that this variational principle is derived from.
- Eberhard inequality (named after P. H. Eberhard)
- Electron spin decoherence
- General relativity and quantum mechanics Could we have a single article explaining (i) the conflicts between these theories and (ii) the attempts to resolve them?
- Ground state fluctuations
- Gutzwiller trace formula
- Heavy flavor physics
- Heisenberg interval
- Joined density of states
- Lower dimensional quantum field theory
- MAGIS-100 The 100-meter-long Matter-wave Atomic Gradiometer Interferometric Sensor at Fermilab. [82], [83]
- Massless electron approximation Electrons are assumed to have the same size orbits as without that approximation and have the same amount of attractive force to the nuclei so the electrons must be orbiting infinitely fast and so that approximation can't be applied to relativistic quantum mechanics. Furthermore, since they're assumed to be massless, the Planck constant is also assumed to be zero with nuclei behaving only like particles and just electrons behaving like waves. There are no photons in that approximation because it's nonrelativistic.
- Phase-covariant cloning machine (PQCM)
- Photoassociation
- Photodetachment
- Power broadening
- Quantum addresses
- Quantum frequency translation
- Quantum geometrodynamics (QGD)
- Quantum hologram
- Quantum-mechanical monopoles (nature of and relation to the search for magnetic monopoles) (https://phys.org/news/2015-04-physicists-quantum-mechanical-monopoles.html#nRlv)
- Quantum time of arrival
- Quaternionic Hilbert space (see *Quaternion and *Hilbert space)
- Russian Quantum Center (RQC)
- Shadow brane
- Strong and weak equivalence
- Thomas–Fermi profile
- Vacuum entanglement As a section in Quantum entanglement
- XY chain in a transverse field
- Bubblon model
- Mocanu's paradox (Non-commutativity of the Einstein velocity addition, also called the Mocanu paradox)
- Adaptive SIS model
- Bicritical point
- Cattaneo-Vernotte equation, a generalisation of Fourier's law of heat conduction
- Convection from electrical conductors
- Generalized second law of thermodynamics (Maybe redirect to Black hole thermodynamics)
- Irreversible dynamics
- Isothermal conductivity
- Methalpy
- Mollier chart
- Nonextensive thermodynamics
- Off-diagonal long-range order
- Pair approximation
- Phase envelope
- Rackett equation
- Random cellular networks
- Relativistic Thermodynamics
- Response theory
- Scaling relation
- Superconductivity phase diagram [84]
- Tetracritical point
- XXZ model
- XYZ model
- Yang-Lee zeros
- Yang–Yang thermodynamics formalism
- BCS-BEC crossover (studied in experimental atomic physics and condensed matter theory) (see e.g. https://arxiv.org/abs/1402.5171 )
- Chapman Enskog analysis
- Chinewalking
- Condensed matter imaging
- Condensed Matter, Surfaces, and Structure
- Continous random network
- Crowdion
- Deformation potential
- Diapycnal
- Double resonance
- Impenetrability of matter
- Magnetoroton
- Matrix potential
- Onsager's solution
- Pseudospin
- Quasicontinuum
- Resonating valence band (Perhaps resonating valence bond is meant)
- Shock cocoon
- Snoek relaxation (should be in metallurgy)
- Spin band
- Strong magnetic dipole transition
- Transfer matrix (physics) (probably Transfer-matrix method)
- Witten effect (effect of existence of non-integer electric charge in magnetic monopole; predicted by Edward Witten in 1979; not to be confused with Hanany-Witten effect) [85]
- Bardeen–Stephen Theory
- Estakhr's Material Geodesic equations[5]
- Navier–Stokes–Estakhr equations (Navier–Stokes equations with Estakhr's relativistic correction)[6]
- Estakhr's continuum model of supernova hydrodynanics, Supernova hydrodynamics[7]
- Bjerknes' circulation theorem (aka Bjerknes's circulation theorem)
- Cavity flow
- Covariant formulation of fluid dynamics and Estakhr's material geodesic equation [86]
- Dusty-gas model
- Eliassen–Palm flux
- Eulerian turbulence
- Homogeneous turbulence
- Lagrangian fluid dynamics
- Microfluids
- Beverloo's law Branch of granular flow, the flow rate of sand through an orifice is independent of the fill height.
- Prandtl equation (Might be present in the article Boundary layer#Boundary layer equations. These ones are nearly the Prandtl equation and follows the same concept. It seems to me that just the name is missing.)
- Stream velocity
- Swirl chamber
Quantum information and computation
[edit source]Other physics terms
[edit source]- Requests listed in this section may belong somewhere else. Please help by moving them to a suitable location.
- 2CDM model
- Acetate silk
- Anticyclonic tide
- Bending frequency
- Bunched field
- Cavity reactor
- Chemicurrent
- Coherent interface
- Corrosion in shipwrecks
- Drip tip leaves (see Glossary of botanical terms#D)
- Dynamical frustration [94]
- Energetic particles
- Extended objects
- Halogen counter
- Instituto Tecnologico e Nuclear (Portugal)
- Jungersol
- Langmuir balance
- List of things named after physicists: please see here
- Loschmidt echo maybe you will be able to find references in [95]
- Mach–Lorentz thruster
- Mass median aerodynamic diameter (MMAD)
- Mean lower low tide (see Chart datum)
- Mie algebra developed by Gustav Mie
- Motor effect
- Nonlinear decoherence
- Nose–Hoover equations
- Pauli Blocking
- Phonon bottleneck
- PI pulse
- Point mass discretization
- Power scavenging (see Energy harvesting)
- Proton conduction
- Provotorov equations
- Quadratic gravity
- Quantum jitter (also Quantum fluctuation)
- Ruby thermometer
- Schiff moment
- Soft theorem
- Stellar energy
- Stretching frequency
- Taylor–Couette cell
- Ultrananocrystalline diamond (UNCD)
- Wisdom-Holman method for simulating orbital dynamics
See also
[edit source] | Requests for articles about astronomy are on a separate page, and should be added there. |
References
[edit source]- ^ Newtonian Microeconomics A Dynamic Extension to Neoclassical Micro Theory Lua error in Module:Citation/CS1/Configuration at line 2172: attempt to index field '?' (a nil value).
- ^ Raĭzer, Y.P., 1980. Optical discharges. Physics-Uspekhi, 23(11), pp.789-806.
- ^ Generalov, N.A., Zimakov, V.P., Kozlov, G.I., Masyukov, V.A. and Raizer, Y.P., 1970. Continuous optical discharge. ZhETF Pisma Redaktsiiu, 11, p.447.
- ^ Lua error in Module:Citation/CS1/Configuration at line 2172: attempt to index field '?' (a nil value).
- ^ BAPS.2013.DFD.R8.4 [1]
- ^ BPAS.2015.MAR.V1.285[2]
- ^ BAPS.2015.APR.T1.26[3]