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{{User:SDZeroBot/NPP sorting/header|count=2723|date=23 August 2025|ts=0113:4351, 23 August 2025 (UTC)}}
 
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| 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.
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| data-sort-value=10701073 | [[Special:Contribs/Stepwise Continuous Dysfunction|Stepwise Continuous Dysfunction]] (10701073)
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| data-sort-value=3280 | [[Special:Contribs/Samuel Adrian Antz|Samuel Adrian Antz]] (3280)
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| 2025-08-17
| [[Acoustic Black Holes in Fluids]]
| Acoustic black holes in fluids are analogue models of gravitational black holes that occur when the flow of a fluid exceeds the local speed of sound. In such regions, sound waves are trapped and cannot escape upstream, creating an ''acoustic horizon'' similar in structure to the event horizon of an astrophysical black hole.
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| data-sort-value=84 | [[Special:Contribs/GUIDE3|GUIDE3]] (84)
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| 2025-08-14
| [[Black hole morsels]]
| Black hole morsels are theoretical ultra-small black hole remnants that may form during the aftermath of [[black hole mergers]]. In certain [[quantum gravity]] models, these asteroid-mass morsels evaporate rapidly via [[Hawking radiation]], emitting high-energy gamma-ray bursts observable as delayed signals following gravitational-wave events.
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| data-sort-value=84 | [[Special:Contribs/GUIDE3|GUIDE3]] (84)
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| 2025-07-28
| [[Quantum Gravitational Decoherence in the Early Universe]]
| Quantum gravitational decoherence is a theoretical framework that explores how quantum systems lose coherence due to gravitational interactions, particularly in the context of the early universe. It seeks to explain the quantum-to-classical transition of cosmological perturbations and may provide insights into the measurement problem, inflationary fluctuations, and the arrow of time.
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| data-sort-value=84 | [[Special:Contribs/GUIDE3|GUIDE3]] (84)
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| 2025-07-24
| [[Information-Theoretic Approaches to Gravity]]
| Information-based gravity is a speculative and emerging framework in theoretical physics that suggests gravity is not a fundamental interaction, but instead emerges from the quantum informational structure of spacetime. According to this perspective, gravity results from entropy gradients and information flow between quantum systems—much like thermodynamic forces emerge from statistical behavior of particles.
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| data-sort-value=84 | [[Special:Contribs/GUIDE3|GUIDE3]] (84)
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| 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]]. He has contributed to multiscale and [[nanomechanics]] computational modeling, including [[Meshfree methods|mesh-free methods]], [[peridynamics]], [[micromechanics]], generative [[artificial intelligence]] (AI)-based continuum mechanics theory, and the integration of AI into engineering design, inverse so ...
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| data-sort-value=22 | [[Special:Contribs/Yusnadha|Yusnadha]] (22)
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<span style="font-style: italic; font-size: 85%;">Last updated by [[User:SDZeroBot|SDZeroBot]] <sup>''[[User:SD0001|operator]] / [[User talk:SD0001|talk]]''</sup> at 0113:4351, 23 August 2025 (UTC)</span>
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