Superradiant Scattering

Aaron J. Hand

Researchers at the Massachusetts Institute of Technology studied Rayleigh scattering off a Bose-Einstein condensate, an experiment that produced superradiant scattering.

As described in the July 23 issue of Science, the researchers exposed the condensate to an off-resonant laser pulse. Though the photons would normally scatter randomly, the single quantum state of the atoms in a Bose-Einstein condensate allowed the light to maintain its coherence. Long-lived excitations in the condensate, the authors explained, "provide a positive feedback and lead to directional Rayleigh scattering."

The experiment demonstrated the symmetry between optical lasers and atom lasers.





LATEST NEWS

• Quantum Brilliance Raises $20M
  Jan 16, 2025
• Scalable Error-Correction Signals Forthcoming Efficiency Gains for Quantum Compute
  Jan 16, 2025
• Fraunhofer CAP Appoints Head, Scientific Director: People in the News: 1/15/25
  Jan 15, 2025
• Bioluminescent Tags Track RNA Dynamics in Live Cells in Real Time
  Jan 15, 2025
• Sensing and Inspection Specialist EVK Joins Headwall Group
  Jan 14, 2025
• PHOTON IP Raises $4.9M Seed Round
  Jan 14, 2025
• Graphene Prevents Damage to Flexible Thin Films for Wearable Electronics
  Jan 14, 2025
• Thorlabs Acquires VCSEL Developer, Longtime Partner Praevium Research
  Jan 13, 2025