Advancements in quantum computing and materials

In Planck-scale approximations of spacetime foam using tensor network simulations

Planck scale spacetime foam tensor networks quantum gravity holography

Fusing quantum algorithms with albedo-modifying urban materials for megacity cooling

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For room-temperature superconductors in quantum computing and energy grids

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Using topological insulators for spintronics in ultra-low-power computing

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Advancing quantum computing through magnetic skyrmion-based interconnects for error correction

quantum computing skyrmions error correction spintronics interconnects

Optimizing quantum error correction for next-generation topological qubits

quantum computing error correction topological qubits coherence time fault tolerance

Synchronizing quantum emitters at plasma oscillation frequencies for entangled photon generation

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In magnetar magnetic field decay: probing quantum vacuum effects in extreme astrophysics

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At zeptosecond resolution, tracking electron dynamics in quantum materials

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In Planck-scale approximations: probing quantum gravity effects for millisecond pulsar intervals

Planck scale quantum gravity millisecond pulsars spacetime metrics astrophysical probes

Bridging quantum biology with information theory to decode cellular communication

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Enhancing computational efficiency in quantum circuits via gate-all-around nanosheet transistors

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