Advanced materials for energy and computing

Optimizing spin relaxation timescales in perovskite quantum dots for quantum computing

spin relaxation perovskite quantum dots qubit coherence quantum computing material defects

Hybrid quantum-classical algorithms for simulating protein folding on near-term devices

quantum algorithms protein folding hybrid computing molecular dynamics error mitigation

Using topological insulators for spintronics to revolutionize low-energy computing

topological insulators spintronics quantum materials low-energy computing electron spin

Optimizing in-memory computing performance with resistive RAM for edge devices

resistive RAM in-memory computing edge devices energy efficiency low-latency

Mitigating catastrophic forgetting in neural networks through grid-forming inverter technology

catastrophic forgetting grid-forming inverters neural networks power systems AI stability

Quantum error correction at coherence limits using topological qubit arrays

surface codes anyonic systems cryogenic control quantum supremacy error thresholds

Optimizing spin relaxation timescales for quantum computing coherence

spin relaxation quantum coherence qubit stability solid-state physics quantum computing

At spin relaxation timescales for quantum computing error correction

spin relaxation quantum computing error correction coherence time fault tolerance

Optimizing transformer models with energy-efficient attention mechanisms for edge devices

transformer models energy-efficient AI attention mechanisms edge computing neural networks

Reanalyzing failed experiments in quantum computing to uncover hidden error-correction mechanisms

quantum error correction qubit stability experimental failure data reanalysis superconductivity

Probing Josephson junction frequencies in superconducting qubits for quantum computing advancements

Josephson junctions superconducting qubits quantum coherence microwave resonators quantum error correction

Enhancing quantum coherence limits through error-corrected superconducting qubit arrays

quantum coherence error correction superconducting qubits quantum computing decoherence