Filippo Borselli

As a physicist, I have always been fascinated by the idea of manipulating atoms with laser beams. There are so many fundamental and application-oriented reasons why this is important, such as the development of precise clocks and high-sensitivity sensors that rely on this quantum technology. Of course, at the end of the day, the ultimate motivation is to simply have fun!


Education: 
  • Bachelors 2013, Physics and Astrophysics, FIRENZE
  • Thesis at LENS laboratory, FLORENCE
  • Masters 2016, Physics and Astrophysics, FIRENZE
  • Thesis at MAGIA experiment, Prof. G.M. Tino
  • PhD 2022, J. Schmiedmayer Group, VIENNA 

Research Interests: 

Cold atoms, BECs, atomic clocks, atomic interferometers, quantum technologies




Selected Publications: 
  1. D'Amico, G., Borselli, F., Cacciapuoti, L., Prevedelli, M., Rosi, G., Sorrentino, F. and Tino, G.M., 2016. Bragg interferometer for gravity gradient measurements. Physical Review A, 93(6), p.063628.
  2. Borselli, F., Maiwöger, M., Zhang, T., Haslinger, P., Mukherjee, V., Negretti, A., Montangero, S., Calarco, T., Mazets, I., Bonneau, M. and Schmiedmayer, J., 2021. Two-particle interference with double twin-atom beams. Physical review letters, 126(8), p.08360
  3. Borselli, Filippo. "Experiments with momentum-correlated atom pairs trapped in a double-well potential." PhD diss., Wien, 2022.
  4. Maiwöger, M., Sonnleitner, M., Zhang, T., Mazets, I., Mallweger, M., Rätzel, D., Borselli, F., Erne, S., Schmiedmayer, J. and Haslinger, P., 2022. Observation of light-induced dipole-dipole forces in ultracold atomic gases. Physical Review X, 12(3), p.031018.
  5. Zhang, T., Maiwöger, M., Borselli, F., Kuriatnikov, Y., Schmiedmayer, J. and Prüfer, M., 2023. Squeezing oscillations in a multimode bosonic Josephson junction. arXiv preprint arXiv:2304.02790.
Address: 
4800 Oak Grove Drive
Pasadena, CA 91109