Ge-Doped Glass Produces Unique Light Polarization

Researchers led by Patrick Kazansky of the Optoelectronics Research Center at the University of Southampton in the UK have conducted a series of experiments that may further explain light polarization in glass.

They used Ge-doped silica glass, which features strong photosensitivity associated with centers deficient in germanium oxygen. They observed strong blue luminescence related to those defects. When the pump beam was focused inside the sample, the spatial isotropy of the blue luminescence was broken. The luminescence scattering increased along the direction of the pump polarization.

This led to the conclusion that anisotropic light scattering peaks in the plane of light polarization within isotropic media. Further details of the work appear in the March 8 issue of Physical Review Letters.





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