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Line 1: {{User:SDZeroBot/NPP sorting/header\|count=25\|date=1729 August 2025\|ts=13:5051, 1729 August 2025 (UTC)}} {\| class="wikitable sortable" Line 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=~~3214~~3289 \| [[Special:Contribs/Samuel Adrian Antz\|Samuel Adrian Antz]] (~~3214~~3289) \| \|- Line 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=~~982~~1119 \| [[Special:Contribs/Stepwise Continuous Dysfunction\|Stepwise Continuous Dysfunction]] (~~982~~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 35 ⟶ 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=~~8030~~8041 \| [[Special:Contribs/Milkk7\|Milkk7]] (~~8030~~8041) \| \|- Line 43 ⟶ 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 56 ⟶ 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=~~3214~~3289 \| [[Special:Contribs/Samuel Adrian Antz\|Samuel Adrian Antz]] (~~3214~~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)▼ \| \|- Line 71 ⟶ 50: \| C \| data-sort-value=66 \| [[Special:Contribs/PikutaMe\|PikutaMe]] (66) ▲\| ▲\|- \| 2024-01-09 \| [[Ian Smith (civil engineer)]] <small>(Canadian and Swiss civil 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. ▲\| Start ▲\| data-sort-value=~~104~~18 \| [[Special:Contribs/~~Sufficient~~Ronal ~~statistics~~tarim\|~~Sufficient~~Ronal ~~statistics~~tarim]] (~~104~~18) ▲\| ▲\|- \| 2024-01-22 \| [[Silvano Donati]] <small>(Italian physicist in the field of 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. ▲\| C ▲\| data-sort-value=1335 \| [[Special:Contribs/~~Lsherzog1998~~Fratilias\|~~Lsherzog1998~~Fratilias]] (1335) \| \|- Line 84 ⟶ 77: \| Dora Reisser (born February 1942) is a former British actress and fashion designer. \| Start \| data-sort-value=~~16161~~16428 \| [[Special:Contribs/Rigg\|Rigg]] (~~16161~~16428) \| \|- Line 92 ⟶ 85: \| C \| data-sort-value=15431 \| [[Special:Contribs/TimothyRias\|TimothyRias]] (15431) \| ▼ \|-▼ \| 2025-07-11▼ ~~\| [[Igor Shvets]] <small>(Irish Physicist)</small>~~ \| 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. \| Start▼ \| data-sort-value=166 \| [[Special:Contribs/Gukecavoran\|Gukecavoran]] (166)▼ \| \|- Line 119 ⟶ 105: \| 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=3334 \| [[Special:Contribs/Thrynova\|Thrynova]] (3334) \| ▼ \|-▼ ~~\| 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=58 \| [[Special:Contribs/RobinHarrisonfan2008\|RobinHarrisonfan2008]] (58)▼ \| \|- Line 141 ⟶ 120: \| C \| data-sort-value=104 \| [[Special:Contribs/Ozzwah\|Ozzwah]] (104) \| ▼ \|-▼ ~~\| 2025-08-10~~ ~~\| [[Horace Hewitt Poole]]~~ \| Horace Hewitt Poole (1886–1962) was an Irish physicist and academic who worked in [[radioactivity]] and [[experimental physics]]. A Trinity Scholar in 1905, he graduated as Senior Moderator in 1907. In 1909, Poole was appointed assistant in the Physics Department of [[Trinity College Dublin]], and remained in that post until 1921, when he became chief executive officer for science at the [[Royal Dublin Society]] (R.D.S.). ~~\| Stub~~ \| data-sort-value=166 \| [[Special:Contribs/Gukecavoran\|Gukecavoran]] (166)▼ \| \|- Line 161 ⟶ 133: \| Stephen (Geoffrey) Lipson (born 8 January 1941) is an Israeli-British physicist. He is Emeritus Professor of Physics at [[Technion]]. \| Start \| data-sort-value=1015 \| [[Special:Contribs/Agent1967\|Agent1967]] (1015) \| \|- \| ~~2025~~2024-0801-1721 \| [[3CGallium ~~323.1~~indium antimonide]] <small>(~~Quasar in the~~Ternary ~~constellation~~III-V ofSemiconductor ~~Serpens~~compound)</small> \| Gallium indium antimonide, also known as indium gallium antimonide, GaInSb, or InGaSb ([[Gallium\|Ga]]<sub>x</sub>[[Indium\|In]]<sub>1-x</sub>[[Antimony\|Sb]]), is a ternary [[III-V\|III-V semiconductor]] compound. It can be considered as an alloy between [[gallium antimonide]] and [[indium antimonide]]. The alloy can contain any ratio between gallium and indium. \| 3C 323.1 known as PG 1545+210, is a [[quasar]] located in the constellation of [[Serpens]]. The [[redshift]] of the object is (z) 0.264 based on its [[Absorption spectroscopy\|absorption line]] features and it was first discovered as an [[astronomical radio source]] from the [[Third Cambridge Catalogue of Radio Sources\|Third Cambridge Survey of Radio Sources]] in May 1966. \| CStart \| data-sort-value=~~8030~~1128 \| [[Special:Contribs/~~Galaxybeing~~MaterialsPsych\|~~Galaxybeing~~MaterialsPsych]] (~~8030~~1128) \| \|- \| 2025-0806-1214 \| [[~~John~~Herschel's ~~Donoghue (physicist)~~condition]] <small>(~~American~~Optical ~~theoretical~~system ~~physicist~~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]]. \| John Francis Donoghue (born November 30, 1950) is an American theoretical physicist whose research primarily focuses on [[particle physics]] and [[general relativity]], with a particular emphasis on the use of effective field theory methods. He is Distinguished Professor Emeritus at the [[University of Massachusetts Amherst]]. \| Start \| data-sort-value=55115 \| [[Special:Contribs/~~B.V.Svistunov~~Sufficient statistics\|~~B.V.Svistunov~~Sufficient statistics]] (55115) \| \|- \| ~~2005~~2025-1108-2819 \| [[Thomas L. Gilbert]] <small>(American scientist (1922–2016))</small> ~~\| [[Contact tension]]~~ \| Thomas L. Gilbert (November 24, 1922 – May 19, 2016) was an American physicist, a specialist in statistical physics. \| In [[physics]], contact tension (also known as the contact electromotive force, the contact potential, or the Volta effect), is an [[obsolete scientific theory]] that attempted to explain how electricity is generated in an [[electric battery]] or, as it was then called, the [[Voltaic pile]]. \| Start \| data-sort-value=~~25539~~2574 \| [[Special:Contribs/~~Linas~~Sunlitsky\|~~Linas~~Sunlitsky]] (~~25539~~2574) ▲\| ▲\|- ▲\| 2025-06-1416 ▲\| [[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=5861 \| [[Special:Contribs/RobinHarrisonfan2008\|RobinHarrisonfan2008]] (5861) ▲\| ▲\|- ▲\| 2025-0508-21 \| [[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/~~Gukecavoran~~Yusnadha\|~~Gukecavoran~~Yusnadha]] (~~166~~22) ▲\| ▲\|- ▲\| 2025-0708-1121 \| [[Yang–Mills moduli space]] <small>(Moduli 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). \| C ▲\| data-sort-value=~~166~~3289 \| [[Special:Contribs/~~Gukecavoran~~Samuel Adrian Antz\|~~Gukecavoran~~Samuel Adrian Antz]] (~~166~~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 13:5051, 1729 August 2025 (UTC)</span>