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Line 1: {{User:SDZeroBot/NPP sorting/header\|count=2524\|date=1030 August 2025\|ts=01:4843, 1030 August 2025 (UTC)}} {\| class="wikitable sortable" Line 9: ! scope="col" style="width: 10em;" \| Creator (# edits) ! scope="col" style="width: 4em;" \| Notes \|- ~~\| 2024-12-28~~ ~~\| [[Yang–Baxter operator]] <small>(A mathematical operator used in theoretical physics and topology)</small>~~ \| Yang–Baxter operators are [[invertible]] [[linear operator\|linear]] [[endomorphisms]] with applications in [[theoretical physics]] and [[topology]]. They are named after [[theoretical physicists]] [[Yang Chen-Ning]] and [[Rodney Baxter]]. These [[mathematical operator\|operators]] are particularly notable for providing solutions to the quantum [[Yang–Baxter equation]], which originated in [[statistical mechanics]], and for their use in constructing [[Knot invariant\|invariants]] of [[knot theory\|knots]], links, and three-dimensional [[manifolds]]. ~~\| Start~~ ~~\| data-sort-value=7062 \| [[Special:Contribs/GregariousMadness\|GregariousMadness]] (7062)~~ \| \|- ~~\| 2025-05-15~~ ~~\| [[Ravenous Abyss]] <small>(2024 EP by Abysmal Oceans)</small>~~ ~~\| ''Ravenous Abyss'' is the debut EP by [[Maldives\|Maldivian]] [[black metal]] band [[Abysmal Oceans]], released on June 8, 2024.~~ ~~\| Start~~ ~~\| data-sort-value=22 \| [[Special:Contribs/SurreaI\|SurreaI]] (22)~~ \| \|- \| 2025-03-09 Line 28 ⟶ 14: \| In [[Kaluza–Klein theory]], a unification of [[general relativity]] and [[electromagnetism]], the five-fimensional Kaluza–Klein–Riemann curvature tensor (or Kaluza–Klein–Riemann–Christoffel curvature tensor) is the generalization of the four-dimensional [[Riemann curvature tensor]] (or Riemann–Christoffel curvature tensor). \| Stub \| data-sort-value=~~3189~~3289 \| [[Special:Contribs/Samuel Adrian Antz\|Samuel Adrian Antz]] (~~3189~~3289) \| \|- Line 35 ⟶ 21: \| The [[Ising model]] is a prototypical model in [[statistical physics]]. The model consists of discrete variables that represent magnetic dipole moments of atomic "spins" that can be in one of two states (+1 or −1). The spins are arranged in a graph, usually a lattice (where the local structure repeats periodically in all directions), allowing each spin to interact with its neighbors. \| C \| data-sort-value=~~924~~1119 \| [[Special:Contribs/Stepwise Continuous Dysfunction\|Stepwise Continuous Dysfunction]] (~~924~~1119) \| \|- ~~\| 2025-06-14~~ ~~\| [[Herschel's condition]] <small>(Optical system example)</small>~~ \| In [[optics]], the Herschel's condition is a condition for an [[optical system]] to produce sharp images for objects over an extended axial range, i.e. for objects displaced along the optical axis. It was formulated by [[John Herschel]]. ~~\| Start~~ ~~\| data-sort-value=104 \| [[Special:Contribs/Sufficient statistics\|Sufficient statistics]] (104)~~ \| \|- Line 49 ⟶ 28: \| The 1859 City of Adelaide colonial by-election was held on 13 May 1859 to elect one of six members for [[Electoral district of City of Adelaide\|City of Adelaide]] in the [[South Australian House of Assembly]], after sitting member [[William Henville Burford]] resigned on 29 April 1859. \| Stub \| data-sort-value=~~8021~~8041 \| [[Special:Contribs/Milkk7\|Milkk7]] (~~8021~~8041) \| \|- Line 57 ⟶ 36: \| C \| data-sort-value=2829 \| [[Special:Contribs/Faster than Thunder\|Faster than Thunder]] (2829) \| \|- ~~\| 2025-05-21~~ ~~\| [[Quantum circuit cutting]]~~ \| ''Quantum circuit cutting'' is a method to partition a large [[quantum circuit]] into smaller, more manageable parts. In particular, during the [[Noisy intermediate-scale quantum era\|NISQ era]] of [[quantum computing]] the execution of quantum circuits is limited by the size, i.e., number of [[qubit]]s, as well as their high susceptibility to noise. ~~\| C~~ ~~\| data-sort-value=13 \| [[Special:Contribs/Lsherzog1998\|Lsherzog1998]] (13)~~ \| \|- Line 70 ⟶ 42: \| In [[differential geometry]] and in particular [[Yang–Mills theory]], Uhlenbeck's singularity theorem is a result allowing the removal of a [[Singularity (mathematics)\|singularity]] of a [[Four-dimensional Yang–Mills theory\|four-dimensional Yang–Mills]] field with finite energy using gauge. It states as a consequence that Yang–Mills fields with finite energy on flat [[euclidean space]] arise from Yang–Mills fields on the curved [[sphere]], its [[one-point compactification]]. \| Start \| data-sort-value=~~3189~~3289 \| [[Special:Contribs/Samuel Adrian Antz\|Samuel Adrian Antz]] (~~3189~~3289) \| \|- ~~\| 2025-07-07~~ ~~\| [[Quaternion Lorentz Transformations]] <small>(Linear transformation of spacetime coordinates)</small>~~ \| In [[special relativity]], a [[Lorentz transformation]] is a real [[linear transformation]] of the [[spacetime coordinates]] t, x, y, z that preserves the Minkowski invariant or [[spacetime interval]] <math display="block">c^2 \, t^2-x^2-y^2-z^2</math> Using the 4x4 [[metric tensor]] <math>\eta</math>, this is ~~\| C~~ ~~\| data-sort-value=494 \| [[Special:Contribs/DonaldWP\|DonaldWP]] (494)~~ \| \|- Line 87 ⟶ 52: \| \|- \| ~~2025~~2024-0701-0709 \| [[~~Cross-coupled~~Ian LCSmith ~~oscillator~~(civil engineer)]] <small>(~~Type~~Canadian and ofSwiss ~~electronic~~civil ~~oscillator~~engineer)</small> \| Ian F. C. Smith is a Canadian and Swiss [[civil engineer]]. He is Emeritus Professor at the [[École Polytechnique Fédérale de Lausanne]] (EPFL) in Switzerland and was the founding director of the [[Nemetschek#Georg_Nemetschek_Institute_-_Artificial_Intelligence_for_the_Built_World\|TUM Georg Nemetschek Institute Artificial Intelligence for the Built World]] at the [[Technical University of Munich]] in Germany. \| The cross-coupled LC oscillator is a type of [[electronic oscillator]] that employs a pair of cross-coupled [[Electronic devices\|electronic active devices]]—typically metal-oxide-semiconductor field-effect [[Transistor\|transistors]] ([[MOSFET\|MOSFETs]]) or bipolar junction transistors ([[Bipolar junction transistor\|BJTs]])—and a resonant [[LC circuit\|LC filter]], commonly referred to as a tank, which stores and exchanges energy between the [[inductor]] and the [[capacitor]]. \| Start ~~\| data-sort-value="A1"\|GA~~ \| data-sort-value=~~150~~18 \| [[Special:Contribs/~~Santumassme~~Ronal tarim\|~~Santumassme~~Ronal tarim]] (~~150~~18) \| \|- \| ~~2025~~2024-0601-1622 \| [[~~Amouna~~Silvano Donati]] <small>(~~2015~~Italian physicist ~~Emirati~~in TVthe ~~series~~field orof ~~program~~photonics)</small> \| Silvano Donati (born 19 August 1942) is a physicist in the field of [[photonics]]. He is an emeritus professor at the [[University of Pavia]] where he has been Full Professor for 30 years and created the Electro-Optical Engineering Group. \| ''Amouna'' (Arabic: أمونة), or alternatively known as Amouna al Mazyouna (Arabic: أمونة المزيونة) is an Emirati children's animated series created by Amer Kokh. It premiered on 25 September 2015 and aired on Majid Kids TV. the series about Amouna is going on a adventure with her brother, Ali and Seif. \| ~~Start~~C \| data-sort-value=5335 \| [[Special:Contribs/~~RobinHarrisonfan2008~~Fratilias\|~~RobinHarrisonfan2008~~Fratilias]] (5335) \| \|- Line 105 ⟶ 70: \| John Donegan is an Irish physicist and academic specializing in photonics, nanophotonics, and optical communications. He is the Professor of Physics and Applications of Light at Trinity College Dublin and Deputy Director of the [[CRANN]] Nanoscience Research Centre having previously served as Head of the School of Physics at Trinity. \| C \| data-sort-value=~~154~~166 \| [[Special:Contribs/Gukecavoran\|Gukecavoran]] (~~154~~166) \| \|- ~~\| 2025-08-02~~ ~~\| [[David O'Regan]] <small>(Irish physicist)</small>~~ \| David D. O'Regan is an Irish physicist and professor in physics at [[Trinity College Dublin]], where he leads the Quantum Theory of Materials Research Group. He is also a member of the [[CRANN]] institute, a large centre for nanoscience research at Trinity. ~~\| Start~~ ~~\| data-sort-value=154 \| [[Special:Contribs/Gukecavoran\|Gukecavoran]] (154)~~ \| \|- Line 119 ⟶ 77: \| Dora Reisser (born February 1942) is a former British actress and fashion designer. \| Start \| data-sort-value=~~16127~~16436 \| [[Special:Contribs/Rigg\|Rigg]] (~~16127~~16436) \| \|- ~~\| 2025-08-01~~ ~~\| [[Stephen Geoffrey Lipson]] <small>(Israeli physicist)</small>~~ ~~\| Stephen (Geoffrey) Lipson (born 8 January 1941) is an Israeli-British physicist. He is Emeritus Professor of Physics at [[Technion]].~~ ~~\| Start~~ ~~\| data-sort-value=5 \| [[Special:Contribs/HodLipson2050\|HodLipson2050]] (5)~~ \| \|- ~~\| 2025-07-27~~ ~~\| [[Dmitry Volkov (physicist)]] <small>(Ukrainian scientist (1925–1996))</small>~~ \| Dmitry Volkov ({{langx\|uk\|Дмитро Васильович Волков}}; 3 July 1925 – 5 January 1996) — physicist. [[Doctor of Philosophy\|PhD]] in 1956. Doctor of Physical and Mathematical Sciences ([[Habilitation]]) in 1968. Professor (1977). [[Academician]] of [[National Academy of Sciences of Ukraine]] (1988). ~~\| Start~~ ~~\| data-sort-value=33 \| [[Special:Contribs/Thrynova\|Thrynova]] (33)~~ \| \|- Line 143 ⟶ 87: \| \|- \| 2025-0702-1121 \| [[~~Igor~~Modular ~~Shvets~~tensor category]] <small>(~~Irish~~Category ~~Physicist~~theory)</small> \| A modular tensor category (also called a modular fusion category) is a type of [[tensor category (disambiguation)\|tensor category]] that plays a role in the areas of [[topological quantum field theory]], [[conformal field theory]], and [[quantum algebra]]. Modular tensor categories were introduced in 1989 by the physicists [[Greg Moore (physicist)\|Greg Moore]] and [[Nathan Seiberg]] in the context of [[rational conformal field theory]]. \| Igor Shvets is the Head of Applied Physics at the School of Physics, [[Trinity College Dublin]] (TCD), where he is also a principal investigator at [[CRANN]] and [[AMBER]].. He has worked in nanomaterials, thin-film physics, energy systems, and transparent conducting oxides, and has founded technology spinouts in Ireland. \| data-sort-value="A1"\|GA \| data-sort-value=137 \| [[Special:Contribs/Meelo Mooses\|Meelo Mooses]] (137) \| \|- \| 2025-07-07 \| [[Cross-coupled LC oscillator]] <small>(Type of electronic oscillator)</small> \| The cross-coupled LC oscillator is a type of [[electronic oscillator]] that employs a pair of cross-coupled [[Electronic devices\|electronic active devices]]—typically metal-oxide-semiconductor field-effect [[Transistor\|transistors]] ([[MOSFET\|MOSFETs]]) or bipolar junction transistors ([[Bipolar junction transistor\|BJTs]])—and a resonant [[LC circuit\|LC filter]], commonly referred to as a tank, which stores and exchanges energy between the [[inductor]] and the [[capacitor]]. \| data-sort-value="A1"\|GA \| data-sort-value=150 \| [[Special:Contribs/Santumassme\|Santumassme]] (150) \| \|- \| 2025-07-27 \| [[Dmitry Volkov (physicist)]] <small>(Ukrainian scientist (1925–1996))</small> \| Dmitry Volkov ({{langx\|uk\|Дмитро Васильович Волков}}; 3 July 1925 – 5 January 1996) — physicist. [[Doctor of Philosophy\|PhD]] in 1956. Doctor of Physical and Mathematical Sciences ([[Habilitation]]) in 1968. Professor (1977). [[Academician]] of [[National Academy of Sciences of Ukraine]] (1988). \| Start \| data-sort-value=~~154~~34 \| [[Special:Contribs/~~Gukecavoran~~Thrynova\|~~Gukecavoran~~Thrynova]] (~~154~~34) \| \|- Line 157 ⟶ 115: \| \|- \| 2025-0801-0519 \| [[~~Birman–Schwinger~~Fluorescence ~~principle~~upconversion]] <small>(~~Eigenvalue~~Ultrafast ~~transformation~~laser ~~method~~spectroscopic technique)</small> \| Fluorescence upconversion (FU) is an [[Ultrafast laser spectroscopy\|ultrafast laser spectroscopic]] technique. It is a variant of [[sum-frequency generation]] (of which the [[second-harmonic generation]] (SHG) is a special case) but applied to the detection of the incoherent [[fluorescence]]. It is therefore closely related to the [[Optical Kerr Gating]] (OKG) technique. \| In [[mathematics]] the Birman–Schwinger principle is a useful technique to reduce the eigenvalue problem for an unbounded differential operator (such as a [[Schrödinger operator]]) to an eigenvalue problem for a bounded integral operator. It originates from independent work by [[Mikhail Shlyomovich Birman\|M. Sh. Birman]] and [[Julian Schwinger\|J. Schwinger]] in 1961. \| C \| data-sort-value=72104 \| [[Special:Contribs/~~Small epsilon~~Ozzwah\|~~Small epsilon~~Ozzwah]] (72104) \| \|- \| 2025-08-0802 \| [[~~Yuji~~David ~~Tachikawa (physicist)~~O'Regan]] <small>(~~Japanese~~Irish ~~scientist~~physicist)</small> \| David D. O'Regan is an Irish physicist and professor in physics at [[Trinity College Dublin]], where he leads the Quantum Theory of Materials Research Group. He is also a member of the [[CRANN]] institute, a large centre for nanoscience research at Trinity. \| is a Japanese [[theoretical physicist]]. He is a professor at the [[Kavli Institute for the Physics and Mathematics of the Universe]] (Kavli IPMU), the [[University of Tokyo]]. His research focuses on [[particle physics]], especially field theory and mathematical physics in [[superstring theory]]. \| Start \| data-sort-value=~~977~~166 \| [[Special:Contribs/~~Fakt Keaton~~Gukecavoran\|~~Fakt Keaton~~Gukecavoran]] (~~977~~166) \| \|- \| 2025-0708-2101 \| [[~~Otago~~Stephen ~~Department~~Geoffrey ~~of Physics~~Lipson]] <small>(~~Department in the University of Otago, New~~Israeli ~~Zealand~~physicist)</small> \| Stephen (Geoffrey) Lipson (born 8 January 1941) is an Israeli-British physicist. He is Emeritus Professor of Physics at [[Technion]]. \| The Otago Department of Physics is a physics department located at the [[University of Otago]] in [[Dunedin]], New Zealand. It's specifically situated in the Science 3 building, at the northwest corner of the campus. The building is located at the intersection of Cumberland and St. \| Start \| data-sort-value=15 \| [[Special:Contribs/Agent1967\|Agent1967]] (15) \| \|- \| 2025-06-14 \| [[Herschel's condition]] <small>(Optical system example)</small> \| In [[optics]], the Herschel's condition is a condition for an [[optical system]] to produce sharp images for objects over an extended axial range, i.e. for objects displaced along the optical axis. It was formulated by [[John Herschel]]. \| Start \| data-sort-value=115 \| [[Special:Contribs/Sufficient statistics\|Sufficient statistics]] (115) \| \|- \| 2025-08-19 \| [[Thomas L. Gilbert]] <small>(American scientist (1922–2016))</small> \| Thomas L. Gilbert (November 24, 1922 – May 19, 2016) was an American physicist, a specialist in statistical physics. \| Start \| data-sort-value=2574 \| [[Special:Contribs/Sunlitsky\|Sunlitsky]] (2574) \| \|- \| 2025-06-16 \| [[Amouna]] <small>(2015 Emirati TV series or program)</small> \| ''Amouna'' (Arabic: أمونة), or alternatively known as Amouna al Mazyouna (Arabic: أمونة المزيونة) is an Emirati children's animated series created by Amer Kokh. It premiered on 25 September 2015 and aired on [[:ar:قناة_ماجد_للأطفال\|Majid Kids TV]]. the series about Amouna is going on a adventure with her brother, Ali and Seif. \| Start \| data-sort-value=61 \| [[Special:Contribs/RobinHarrisonfan2008\|RobinHarrisonfan2008]] (61) \| \|- \| 2025-08-21 \| [[Shaofan Li]] <small>(Chinese-American computational mechanics researcher)</small> \| Shaofan Li is a Chinese-American professor of applied and [[computational mechanics]] in the Department of [[Civil and Environmental Engineering]] at the [[University of California, Berkeley]]. \| C \| data-sort-value=~~166~~22 \| [[Special:Contribs/~~Aspir8~~Yusnadha\|~~Aspir8~~Yusnadha]] (~~166~~22) \| \|- \| 2025-0208-21 \| [[~~Modular~~Yang–Mills ~~tensor~~moduli ~~category~~space]] <small>(~~Category~~Moduli ~~theory~~space of the Yang–Mills equations)</small> \| In [[gauge theory]], the Yang–Mills moduli space (short YM moduli space, also instanton moduli space) is the [[moduli space]] of the [[Yang–Mills equations]], hence the space of its solutions up to [[gauge]]. It is used in [[Donaldson's theorem]], proven in and improved in , which was listed as a contribution for [[Simon Donaldson]] winning the [[Fields Medal]] in 1986, and to defined the [[Donaldson invariant\|Donaldson invariants]] used to study four-dimensional smooth manifolds (short 4-manifolds). \| A modular tensor category (also called a modular fusion category) is a type of [[tensor category (disambiguation)\|tensor category]] that plays a role in the areas of [[topological quantum field theory]], [[conformal field theory]], and [[quantum algebra]]. Modular tensor categories were introduced in 1989 by the physicists [[Greg Moore (physicist)\|Greg Moore]] and [[Nathan Seiberg]] in the context of [[rational conformal field theory]]. \| C ~~\| data-sort-value="A1"\|GA~~ \| data-sort-value=~~137~~3289 \| [[Special:Contribs/~~Meelo~~Samuel ~~Mooses~~Adrian Antz\|~~Meelo~~Samuel Adrian ~~Mooses~~Antz]] (~~137~~3289) \| \|- \| 2025-07-07 \| [[Quaternion Lorentz Transformations]] <small>(Linear transformation of spacetime coordinates)</small> \| In [[special relativity]], a [[Lorentz transformation]] is a real [[linear transformation]] of the [[spacetime coordinates]] t, x, y, z that preserves the Minkowski invariant or [[spacetime interval]] <math display="block">c^2 \, t^2-x^2-y^2-z^2</math> Using the 4x4 [[metric tensor]] <math>\eta</math>, this is \| C \| data-sort-value=496 \| [[Special:Contribs/DonaldWP\|DonaldWP]] (496) \| \|} <span style="font-style: italic; font-size: 85%;">Last updated by [[User:SDZeroBot\|SDZeroBot]] <sup>''[[User:SD0001\|operator]] / [[User talk:SD0001\|talk]]''</sup> at 01:4843, 1030 August 2025 (UTC)</span>