Pioneering breakthroughs in quantum physics, computation, and interdisciplinary exploration of the quantum universe.
Redefining non-local correlations with scalable detection methodologies and quantum field mapping.
📚 Read MoreDeveloping fault-tolerant quantum processors using topological and superconducting qubit implementations.
📚 Read MoreUnifying general relativity with quantum field theories through discrete spacetime models.
📚 Read MoreSuccessful demonstration of long-term qubit stability at ambient temperatures using novel semiconductor materials.
A new protocol enabling scalable multi-particle entanglement for quantum networks with 98.7% fidelity.
Established measurable interactions between gravitational fields and quantum superpositions in lab conditions.
Academic partnerships, industry collaborations, and open-source initiatives driving the next quantum revolution.
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