Highly Compact, High-Index Dielectric Nanostructures for Deep-Ultraviolet Devices

Researchers at University of California, Santa Barbara have created wavelength-tunable, compact optical elements for efficient deep-UV reflection. These novel elements minimize absorption with a low extinction coefficient and >90% reflectance for th…
Researchers at University of California, Santa Barbara have created wavelength-tunable, compact optical elements for efficient deep-UV reflection. These novel elements minimize absorption with a low extinction coefficient and >90% reflectance for the entire relevant UV wavelength range (180-365 nm) — all with improved wall-plug efficiency. Unlike reflective UV surfaces and protective dielectric coatings, this optical structure achieves upwards of 85% specular reflection near 200 nm and does not easily oxidize, making the devices commercially competitive compared to their counterpart’s high oxidation rates. Additionally, this invention enables back-end fabrication adaptability to a range of design wavelengths since the reflectors can be formed after epitaxial heterostructure growth and optical testing. This invention leverages intense, wavelength-tunable reflection, and narrow-band wavelength selectivity to become suitable for cleanup filters and narrow-band reflectors for commercially available lasers and LEDs. The compactness, efficiency, fabrication adaptability, and natively-nitride-based and freestanding nature of these elements positions them well to disrupt their current industry alternatives.

Website:

https://techtransfer.universityofcalifornia.edu/NCD/32699.html?utm_source=AUTMGTP&utm_medium=webpage&utm_term=ncdid_32699&utm_campaign=TechWebsites

Advantages:

  • Provides intense wavelength-tunable reflection
  • Achieves high reflectance (>90%) for the entire UV wavelength range
  • Enables narrow-band wavelength selectivity and free-standing, compact, natively nitride-based device integration

Potential Applications:

  • UV LEDs and UV Optoelectronics
    • Med devices for disinfection and sterilization
    • Spectroscopy

Contact Information:

Name: Robert Takara

Title :

Department :

Email: Takara@tia.ucsb.edu

Phone: 805-893-5138

Address :