Hybridization Improves Photonic Crystals

Combining different photonic crystal lattices greatly enhances the performance of optical devices based on the structures, report engineers at the University of Delaware in Newark. In the Dec. 1 issue of Applied Optics, they present simulations of photonic crystal beamsplitters that employ a square lattice and of ones that incorporate both a square and a hexagonal lattice.

Finite difference time-domain models of the devices revealed that replacing the square lattice with a hexagonal one in the splitter section increases the overall throughput efficiency from 50 to 90 percent. The team also investigated a four-way beamsplitter and a splitter and combiner device based on the heterostructures.





LATEST NEWS

• Headwall Taps Jim Gareau to Lead Optical Components and Assemblies Unit
  May 2, 2024
• Cognex Names Former Siemens VP Dennis Fehr CFO
  May 2, 2024
• 3D Holography Integrated Glasses Could Unlock Mixed Reality
  May 2, 2024
• Generative AI Achieves Superresolution with Minimal Tuning
  May 2, 2024
• AmeriCOM Adds President and CEO: People in the News: 5/1/24
  May 1, 2024
• Machine Learning Pushes High-Power Lasing Limits
  May 1, 2024
• IPG Names Industry Veteran Mark Gitin CEO
  Apr 30, 2024
• 16th Biannual Optatec Conference Continues in Frankfurt
  Apr 30, 2024