Research Focus
Quantum Computing
Quantum computers leverage the principles of quantum mechanics to perform complex calculations and solve problems that are intractable for classical computers. Some of the noteworthy research are Super conducting quantum processes, photons, spin quits, and atom.
Quantum computers are considered the holy grail of quantum research. Our teams are actively using our engineered quantum systems to advance towards their construction. Again, we consider simultaneously different platforms, with superconducting quantum processors appearing the most promising.
Quantum Sensors
Quantum labs explores the development of high-precision measurement devices using quantum sensors. Quantum-based sensors can offer enhanced sensitivity for applications like atomic clocks, magnetic field measurements, and gravitational wave detection.
Our team are actively researching on the investigations of new types of high precision sensors include inertial sensors with thermal atoms, Rydberg atoms for electric field measurements, magnetometers for bio-sensing, optical clock transition atom interferometry for prototype gravitational waves detectors. Device development includes quantum fibre sensors, mobile gravimeters, and superconducting sensors.
Quantum Communication
Quantum lab investigates methods for secure quantum communication, such as quantum cryptography and quantum key distribution. These technologies utilize the unique properties of quantum mechanics, such as entanglement and superposition, to ensure the privacy and integrity of information transmission. Current research area are single photons, quantum key distribution.
The generation of single photons offers a key resource in quantum key distribution as well as other quantum information protocols.
Quantum Algorithm
Quantum lab researchers utilize quantum mechanics principles to develop algorithms that outperform classical ones in solving complex problems.
We work on defining the mathematical limits of quantum data science, quantum thermodynamics and causal inference. We are also active in the design of new quantum algorithms, including those based on pattern agents.