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Line 1: {{User:SDZeroBot/NPP sorting/header\|count=23\|date=1516 August 2025\|ts=1301:5447, 1516 August 2025 (UTC)}} {\| class="wikitable sortable" Line 14: \| 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=~~7097~~7099 \| [[Special:Contribs/GregariousMadness\|GregariousMadness]] (~~7097~~7099) \| \|- Line 28: \| 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=~~979~~982 \| [[Special:Contribs/Stepwise Continuous Dysfunction\|Stepwise Continuous Dysfunction]] (~~979~~982) \| \|- Line 98: \| Dora Reisser (born February 1942) is a former British actress and fashion designer. \| Start \| data-sort-value=~~16154~~16156 \| [[Special:Contribs/Rigg\|Rigg]] (~~16154~~16156) \| \|- Line 148: \| Start \| data-sort-value=58 \| [[Special:Contribs/RobinHarrisonfan2008\|RobinHarrisonfan2008]] (58) \| ▼ \|-▼ \| 2025-01-19▼ \| [[Fluorescence upconversion]] <small>(Ultrafast laser 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.▼ \| C▼ \| data-sort-value=99 \| [[Special:Contribs/Ozzwah\|Ozzwah]] (99)▼ \| \|- Line 169 ⟶ 162: \| C \| data-sort-value=1274 \| [[Special:Contribs/FrankBierFarmer\|FrankBierFarmer]] (1274) ▲\| ▲\|- ▲\| 2025-01-19 ▲\| [[Fluorescence upconversion]] <small>(Ultrafast laser 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. ▲\| C ▲\| data-sort-value=99104 \| [[Special:Contribs/Ozzwah\|Ozzwah]] (99104) \| \|} <span style="font-style: italic; font-size: 85%;">Last updated by [[User:SDZeroBot\|SDZeroBot]] <sup>''[[User:SD0001\|operator]] / [[User talk:SD0001\|talk]]''</sup> at 1301:5447, 1516 August 2025 (UTC)</span>

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