Quantum Hybridized Accelerometer
We are developing a single-axis-quantum-hybridized-accelerometer, using a cold atom interferometer hybridized with classical IMU through a stabilized platform.
The device is meant to be portable, compact, and robust. In light of this criteria, we develop a quantum sensor based on the latest developments and technology regarding lasers, electronics, vacuum systems as well as optics that permit the device to achieve high sensitivity and be in operable and dynamic environment.
Atomic Sagnac Gyrometer
One of the Navigation two axes is rotation detection. Therefore In this project, we aim to build a highly sensitive compact gyroscope based on the proposal in Multi‑loop atomic Sagnac interferometry paper
The sensor is based on a Bose-Einstein condensate source produced using atom chips.