Advancements in quantum computing and materials

Through hybrid bonding for chiplet integration in quantum-classical processors

hybrid bonding chiplet integration quantum computing 3D packaging heterogeneous systems

Investigating spin relaxation timescales in quantum dot qubits for fault-tolerant computing

spin relaxation quantum dots qubits fault-tolerant computing coherence time

Automated retrosynthesis for drug discovery using quantum annealing methods

retrosynthesis quantum annealing drug discovery computational chemistry optimization

Via quantum annealing methods to solve protein folding problems in neurodegenerative disease research

quantum computing protein folding neurodegenerative diseases quantum annealing computational biology

Exploring quantum coherence in superconducting qubits at millikelvin thermal states

quantum coherence superconducting qubits millikelvin temperatures quantum computing decoherence

Uniting glacier physics with semiconductor design for cryogenic computing efficiency

cryogenics glacier modeling thermal management quantum computing materials science

At Josephson junction frequencies with patent-expired innovations for scalable quantum computing

quantum coherence superconducting circuits intellectual property microwave engineering cryogenic systems

Bridging quantum biology with information theory to decode cellular signaling pathways

quantum biology information theory cellular signaling coherence biophysical modeling

Via quantum annealing methods, optimizing protein folding pathways in chaperonin systems

quantum annealing protein folding molecular chaperones energy landscapes adiabatic computation

For room-temperature superconductors via high-pressure hydrogen-rich compound synthesis

room-temperature superconductors high-pressure physics hydrogen compounds metastable materials quantum materials

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

quantum computing strain engineering germanium-silicon qubits heterostructures

Within quantum coherence windows: optimizing spin-photon interfaces for quantum networks

quantum networks spin-photon interface coherence time entanglement photonics