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Temperature as a Proxy for the Decoherence Rate: Superconductivity in ODTOE Coherence Metrics and Four Channels of Condensate Protection — Overview

Температура как прокси скорости декогеренции: сверхпроводимость в метриках когерентности ODTOE и четыре канала защиты конденсата — обзор

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The governing axis of superconductivity is modeled as the decoherence rate of the electronic condensate; temperature sets the dominant thermal channel. The third law of thermodynamics makes absolute zero an asymptotic limit for closing the thermal channel alone, while the…

Управляющая ось сверхпроводимости моделируется как скорость декогеренции электронного конденсата; температура задаёт главный тепловой канал. Третье начало термодинамики делает абсолютный нуль асимптотическим пределом закрытия одного лишь теплового канала, а переход…

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The governing axis of superconductivity is modeled as the decoherence rate of the electronic condensate; temperature sets the dominant thermal channel. The third law of thermodynamics makes absolute zero an asymptotic limit for closing the thermal channel alone, while the superconductor–insulator transition at T→0 shows non-thermal decoherence channels at work. 2025 superfluid-stiffness measurements show quantum geometry can carry phase coherence where kinetic energy vanishes. ODTOE metrics (coherence S, contraction modulus q(B,S), lifetime law T=T0/(1−S)ⁿ, the Strue/Sphantom pair) organize four protection channels — energy gap, phase stiffness, quantum geometry, protected subspaces — into one control model with two tiers of falsifiable predictions and a measurement protocol. The cuprate pseudogap reads as phantom coherence; an engineering road toward superconductivity at arbitrary temperature follows four coherence-engineering roads R1–R4.

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