Pioneering quantum computing research and experiments that push the boundaries of classical computation.
� Explore Quantum InitiativesQuantum computing leverages the principles of quantum mechanics to solve problems that classical computers cannot efficiently address. It uses quantum bits (qubits) that exist in superposition and entanglement states, enabling exponential computational speedups for specific problems.
Developing novel quantum algorithms for problems like factorizing large numbers and searching databases in exponential time efficiency.
View Research →Building quantum processors at the physical layer to achieve high stability and qubit cohesion at extremely low temperatures.
View Details →Creating fault-tolerant quantum systems using error-correction techniques that maintain coherence of quantum states during complex computations.
Explore →Maintaining quantum states against environmental interference through superconducting qubit stabilization.
Expanding quantum systems from 64-qubits to thousands while maintaining quantum coherence and control.
Create quantum-resistant cryptographic algorithms to defend against next-generation quantum cracking threats.
Join our open research groups and help solve some of the most challenging problems in quantum physics and computing.
🔑 Participate in Quantum Research