Advancements in quantum computing and materials

Optimizing quantum computing performance using germanium-silicon strain engineering

quantum computing strain engineering germanium-silicon qubit coherence semiconductor physics

At petapascal pressure regimes, synthesizing metastable superconducting hydrides

petapascal physics superconducting hydrides high-pressure synthesis metastable materials quantum materials

At Josephson junction frequencies for ultra-low-noise quantum amplifier design

Josephson junctions quantum amplification microwave electronics superconducting circuits noise suppression

Fusing Byzantine mathematics with quantum algorithms for error-resistant computing architectures

quantum error correction Byzantine mathematics hybrid algorithms fault-tolerant computing historical computation

Exploring quantum coherence preservation at millikelvin thermal states using superconducting qubits

quantum computing millikelvin temperatures superconducting qubits coherence preservation cryogenics

At Josephson junction frequencies for ultra-low-power quantum computing

quantum computing superconductivity Josephson junctions low-power devices cryoelectronics

Decoding magnetar magnetic field decay through quantum electrodynamics simulations

magnetar magnetic decay quantum electrodynamics neutron star astrophysics

Advancing quantum computing using magnetic skyrmion-based interconnects for low-power data transfer

magnetic skyrmions quantum computing spin electronics low-power interconnects nanoscale devices

Advancing quantum computing via directed self-assembly of block copolymers

quantum computing block copolymers self-assembly qubits nanotechnology

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

silicon photonics quantum computing energy efficiency photonic integration scalable architectures

At zeptosecond resolution: probing electron dynamics in exotic quantum materials

zeptosecond physics quantum materials electron dynamics ultrafast lasers topological insulators

Optimizing photonic quantum memory for long-distance entanglement distribution

quantum memory nitrogen-vacancy centers photonic entanglement cavity QED decoherence