3D Printed Lightguide Array for Optical Imaging

This technology is a collection of transparent glass or polymer elements (a lightguide array) for routing light to an array of sensors for use in spectral imaging.

Background:
Spectral imaging combines traditional optical images with spectroscopy, to capture the spectral properties at each part of an image. This technology is useful because it can provide visibility into things not typically recognizable through observing the normal visible light spectrum like the naked eye does. There are many applications for spectral imaging, and the list of applications is rapidly expanding.

In order to produce compact, high quality spectral imaging devices, there needs to be a method to effectively route the light source to an array of sensors, while minimizing light attenuation or overlap in light hitting each sensor. Generally, there is a tradeoff between size of the imaging device, resolution, and manufacturing complexity (and thus, cost). This invention helps solve this problem by creating a cost-effective and high quality 3D printed light guide array.

Applications:

  • Spectral imaging
  • Remote sensing
  • Environmental monitoring
  • Food and drug inspection and quality control
  • Biomedical imaging applications

Advantages:

  • Low cost
  • Compact
  • Ease of manufacture

Website

https://arizona.technologypublisher.com/tech/3D_Printed_Lightguide_Array_for_Optical_Imaging

Contact Information

TTO Home Page: https://arizona.technologypublisher.com

Name: Richard Weite

Title: Senior Licensing Manager, College of Optical Sciences

Department: Tech Launch Arizona

Email: RichardW@tla.arizona.edu