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Advancements in quantum computing and materials

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Advancing quantum error correction via self-assembled monolayer doping in silicon qubits

quantum computing error correction monolayer doping silicon qubits coherence

Enhancing quantum computing stability through 3D monolithic integration of qubit arrays

quantum computing 3D integration qubit coherence noise reduction scalable architectures

Attosecond laser spectroscopy for probing electron dynamics in topological insulators

attosecond physics topological insulators electron dynamics laser spectroscopy quantum materials

Reanalyzing failed experiments in quantum computing to uncover hidden error-correction mechanisms

quantum error correction qubit stability experimental failure data reanalysis superconductivity

Probing Josephson junction frequencies in superconducting qubits for quantum computing advancements

Josephson junctions superconducting qubits quantum coherence microwave resonators quantum error correction

Preparing for 2032 processor nodes through 3D monolithic integration of quantum dots

quantum dots 3D integration processor nodes quantum computing monolithic stacking

Enhancing quantum coherence limits through error-corrected superconducting qubit arrays

quantum coherence error correction superconducting qubits quantum computing decoherence

Optimizing quantum coherence times through accidental discovery pathways in superconducting qubits

quantum computing superconductivity accidental discovery coherence time material science

Bridging quantum annealing methods with adaptive CNC toolpaths for precision manufacturing

quantum annealing CNC toolpaths precision manufacturing optimization adaptive control

Advancing room-temperature superconductors through femtosecond laser ablation techniques

superconductivity laser ablation material science quantum computing energy efficiency

In magnetar magnetic field decay: probing quantum vacuum polarization effects

magnetars quantum vacuum magnetic decay neutron stars astrophysical plasmas

Optimizing hydrogen storage in metal-organic frameworks through quantum annealing computational methods

hydrogen storage metal-organic frameworks quantum annealing energy materials computational chemistry