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| viXra.org > Condensed Matter > viXra:2512.0003 |
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Condensed Matter |
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Authors: Giustino Travaglini
The realization of room-temperature superconductivity at ambient pressure remains the ultimate goal of condensed matter physics. While high-pressure superhydrides (e.g., ������10) have achieved high critical temperatures (Tc), they lose stability upon decompression. Here, I predict a novel ternary clathrate structure, ����2 ���� ��2��18, designed to maintain high-Tc superconductivity at 0GPa via a "kinetic locking" mechanism. First-principles calculations reveal that a rigid Boron-Magnesium host lattice can chemically confine dense hydrogen clusters, mimicking the effects of external pressure. I estimate a Tc of ~298 K driven by strong electron-phonon coupling (��≈2.6). Furthermore, I propose a cry
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[v1] 2025-12-02 02:30:00
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