Advancements in quantum computing and materials

At millikelvin thermal states for probing topological quantum materials

millikelvin states topological materials quantum phenomena cryogenics condensed matter physics

Uniting glacier physics with semiconductor design for cryogenic computing systems

cryogenics glacier mechanics semiconductor cooling quantum computing thermal management

Bridging quantum biology and information theory to model enzyme tunneling effects

quantum biology information theory enzyme dynamics electron tunneling biophysics

Leveraging topological insulators for low-power spintronic devices in quantum computing

topological insulators spintronics quantum computing energy efficiency spin transport

Exploring quantum entanglement dynamics in transition metal dichalcogenide channels

quantum entanglement transition metal dichalcogenides layered materials quantum computing electron dynamics

Investigating multiverse hypotheses using quantum entanglement and cosmic microwave background anomalies

multiverse theory quantum entanglement cosmic microwave background parallel universes cosmology

Optimizing traffic flow in megacities through quantum annealing methods

quantum annealing traffic optimization megacity urban planning emissions reduction

Byzantine numeral-inspired error correction in topological quantum computing

quantum algorithms Byzantine mathematics error correction topological qubits historical computation

Optimizing quantum coherence times via backside power delivery networks in superconducting qubits

quantum coherence backside power delivery superconducting qubits noise reduction cryogenic electronics

Controlling spin relaxation timescales in quantum dot qubits for error correction

spin relaxation quantum dots qubit stability error mitigation semiconductor qubits

Upgrading 1990s technologies through quantum computing retrofits

quantum computing legacy systems retrofitting 1990s technology hardware upgrades

Via quantum annealing methods to optimize sparse mixture-of-experts models

quantum annealing mixture-of-experts neural networks optimization machine learning