Quantum Entanglement in Sodium Spinor Bose-Einstein Condensates

POSTER

Abstract

In a spinor Bose-Einstein condensate (BEC), metrologically useful entanglement in spin space is generated through spin-exchange collisions. The entanglement generation can be precisely controlled via microwave dressing. Here, we present recent improvements to our sodium spinor BEC apparatus with the goal of transferring entanglement from spin to position space via light pulses, with applications in quantum technologies such as quantum-enhanced inertial sensing.

*We gratefully acknowledge support from the NSF under grant No. PHY-2513399

Presenters

  • Samantha Manley

    • University of Oklahoma

Authors

  • Samantha Manley

    • University of Oklahoma

  • Hio Giap Ooi

    • University of Oklahoma

  • Sankalp V Prajapati

    • University of Oklahoma

  • Cordelia Alexis Meixsel

    • University of Oklahoma

  • Nandita Talukder Munna

    • University of Oklahoma

  • Aubrey McNiel

    • University of Oklahoma

  • John E Moore-Furneaux

    • University of Oklahoma

  • Arne Schwettmann

    • University of Oklahoma