Research
Quantum Networks
Achieving a quantum internet represents a transformative leap toward next-generation connectivity for applications like secure data transmission, distributed quantum computing, and fundamental physics research. Unlike classical bits and the internet, quantum bits require innovative methods to enable efficient information transfer across networks, particularly with large metropolitan scales.For a functional quantum network, scalable and stable nodes that can reliably transmit, process, and manipulate quantum information are essential.
Nanospheres
In this project, we are studying the interaction between optical fields and the mechanical motion of a levitated nano-object. Our aim is to prepare and study non-Gaussian quantum states of motion (i.e., with negative values in the Wigner function) of large objects to test the validity of quantum mechanics at unprecedented large scales.