Quantum Research

Pioneering quantum research initiatives exploring quantum supremacy, error correction, and the fundamental limits of quantum systems. Our work bridges theoretical breakthroughs to practical applications.

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Breakthrough Research

Quantum Supremacy Milestone

We've achieved quantum advantage in factoring large primes using Shor's algorithm with a new 256-qubit processor, surpassing classical supercomputers.

Qubits: 256+ | Error Rate: 0.04% | Published: 2025-09

Topological Qubit Stability

New topological qubit design demonstrates record 24-hour coherence times at temperatures near absolute zero, revolutionizing quantum memory.

Temp: 0.01 K | Coherence: >22h | Funders: NASA Ames

Research Pillars

Our research spans quantum algorithms, hardware, and applications at the cutting edge of quantum innovation.

Quantum Error Correction

Quantum Material Synthesis

Hybrid Quantum-Classical Systems

Quantum Machine Learning

Quantum Materials

Developing new materials for qubit fabrication including superconducting circuits, photonic crystals, and topological insulators.

Quantum Algorithms

Creating novel quantum algorithms for optimization, simulation, and cryptography with 150+ publications in nature journals.

Quantum Hardware

Designing next-generation quantum processors with ultra-low error rates using ion traps and topological qubit architectures.

Quantum Applications

Applying quantum computing to climate modeling, protein folding, and financial portfolio optimization with industry partners.

Join the Quantum Revolution

We're looking for collaborators, researchers, and visionaries ready to shape the quantum future. From postdocs to industry partners.

Become a Research Partner View Our Open Positions