Atomfair Brainwave Hub: SciBase II / Advanced Materials and Nanotechnology / Advanced materials for energy and computing

Advanced materials for energy and computing

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Enhancing quantum computing stability through magnetic pole reversal techniques

quantum computing magnetic pole reversal qubit stability error correction coherence

Exploring quantum coherence dynamics at Josephson junction frequencies in superconducting circuits

quantum coherence Josephson junctions superconducting qubits frequency tuning quantum computing

Employing neglected mathematical tools for quantum error correction breakthroughs

quantum computing error correction mathematical tools fault tolerance quantum algorithms

Bridging current and next-gen AI with energy-efficient attention mechanisms for edge devices

energy-efficient AI sparse attention edge computing hybrid architectures transformer optimization

Within quantum coherence windows for error-corrected photonic computing

bosonic codes photon loss fault tolerance quantum memory GKP states

Within quantum coherence windows: optimizing qubit performance in noisy intermediate-scale devices

quantum coherence qubit optimization NISQ devices error mitigation quantum computing

Optimizing exascale system integration for climate modeling simulations

exascale computing climate modeling system integration parallel processing energy efficiency

Harnessing topological insulators for low-power spintronics at terahertz oscillation frequencies

topological insulators spintronics terahertz frequencies quantum materials energy-efficient computing

Employing silicon photonics co-integration for ultra-low-power quantum computing architectures

silicon photonics quantum computing energy efficiency co-integration photonic circuits

Using 2D material heterostructures for ultra-low-power quantum computing devices

2D materials heterostructures quantum computing low-power electronics nanofabrication

Exploring quantum entanglement at terahertz oscillation frequencies in superconducting circuits

quantum entanglement terahertz frequencies superconducting circuits coherence qubit dynamics

Predicting stellar evolution timescales using quantum computing simulations of nuclear fusion

stellar evolution quantum computing nuclear astrophysics fusion modeling star lifecycle