Advancements in quantum computing and materials

Improving quantum computing stability with embodied active learning in error correction systems

quantum computing active learning error correction machine learning qubit stability

Via quantum annealing methods to optimize large-scale protein folding simulations

quantum annealing protein folding computational biology optimization algorithms molecular dynamics

Photonic quantum memory with error-corrected solid-state spin defects

quantum memory nitrogen-vacancy centers photonic networks error correction solid-state qubits

Advancing photonic quantum memory through ferroelectric hafnium oxide integration

quantum memory photonics hafnium oxide ferroelectric materials quantum computing

Optimizing quantum coherence at Josephson junction frequencies for scalable qubit arrays

Josephson junctions quantum coherence superconducting qubits microwave control decoherence mitigation

Employing ruthenium interconnects for high-temperature superconducting quantum computing systems

ruthenium interconnects quantum computing high-temperature superconductors thermal management materials science

Enhancing quantum radar systems through entangled photon pair generation and detection

quantum radar entangled photons stealth detection resolution enhancement photon pair generation

Simulating quantum gravity effects in Planck-scale approximations using ultracold atom lattices

quantum gravity Planck-scale ultracold atoms Bose-Einstein condensates emergent spacetime

Employing germanium-silicon strain engineering for high-performance quantum dot devices

strain engineering germanium-silicon quantum dots heterostructures semiconductor devices

In Planck-scale approximations for quantum gravity simulations using superconducting qubits

Planck scale quantum gravity superconducting qubits spacetime simulation quantum computing

Quantum-enhanced photosynthesis in synthetic biology for carbon capture at industrial scales

quantum biology synthetic photosynthesis carbon sequestration genetic engineering climate tech

Via quantum annealing methods for solving large-scale logistics optimization problems

quantum annealing logistics optimization supply chain quantum computing routing algorithms