Advancements in quantum computing and materials

In Planck-scale approximations for testing quantum gravity effects in lab-scale experiments

Planck scale quantum gravity tabletop experiments emergent spacetime holographic principle

Bridging quantum biology with information theory to model cellular decision-making

quantum biology information theory cellular signaling biophysics quantum coherence

Using topological insulators for spintronics in ultra-low-power quantum computing architectures

topological insulators spintronics quantum computing energy efficiency condensed matter physics

Controlling quantum coherence at Josephson junction frequencies with atomic precision defect engineering

quantum coherence Josephson junctions defect engineering superconductivity quantum computing

Accidental discovery of superconductivity in twisted bilayer graphene at room temperature

superconductivity twisted graphene moiré patterns quantum materials accidental discovery

At millikelvin thermal states for quantum computing error correction

quantum computing cryogenics error mitigation superconductivity millikelvin physics

Automated retrosynthesis for accelerated drug discovery using quantum-inspired algorithms

retrosynthesis drug discovery quantum algorithms AI pharmaceuticals

Fusing Byzantine mathematics with quantum error correction protocols

Byzantine mathematics quantum error correction fault-tolerant computing historical algorithms quantum resilience

Optimizing quantum error correction through topological surface code implementations

quantum computing error correction topological qubits surface code fault tolerance

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

spin relaxation quantum dots qubit coherence fault-tolerant computing semiconductor physics

Quantum annealing methods for protein folding prediction in computational biology

quantum annealing protein folding computational biology quantum computing molecular dynamics

Optimizing quantum error correction at spin relaxation timescales in solid-state qubits

quantum error correction spin relaxation solid-state qubits decoherence fault tolerance