Quick Summary
- Lockheed Martin SPIDER concept uses 澳门六合彩资料库 Davis photonic chips
- Photonic devices use light instead of electrons
- Goal is lighter, more robust telescopes for use on spacecraft, satellites
For hundreds of years, the general design of an optical telescope has remained pretty much the same. Even if you鈥檙e looking at the stars with the naked eye, the image-forming process works in a similar way. Both methods collect light from an object and refract that light to form an image.
Now researchers at the University of California, Davis, are working with Lockheed Martin to develop a radically new kind of telescope that will be much lighter and smaller, both of which are important considerations especially for instruments to be launched into space.
鈥淲e can only scale the size and weight of telescopes so much before it becomes impractical to launch them into orbit and beyond,鈥 said Danielle Wuchenich, senior research scientist at Lockheed Martin鈥檚 Advanced Technology Center in Palo Alto, California. 鈥淏esides, the way our eye works is not the only way to process images from the world around us.鈥
Lockheed Martin鈥檚 SPIDER (Segmented Planar Imaging Detector for Electro-optical Reconnaissance) concept trades bulky lenses and telescopes for a thin layer of hundreds or thousands of tiny lenses that feed photonic integrated circuits on silicon chips. These photonic circuits, developed by Professor at 澳门六合彩资料库 Davis鈥 Department of Electrical and Computer Engineering, combine the light from pairs of lenses to construct a digital image from the interference fringes caused by overlapping waves.
SPIDER eyes: Power in numbers
Interference fringes appear when waves coming from the same source through slightly different routes overlap. Think about ripples spreading in a pond. Where peaks or troughs coincide, they reinforce each other; where a peak meets a trough, they cancel out. When the waves originally came from the same source, the resulting interference patterns can yield information about their original state.
Large-scale astronomical interferometer arrays are already used to form ultra-high-resolution images of objects in space from optical and radio telescopes. The goal of SPIDER is to shrink that concept to a thin layer of thousands of lenses feeding silicon chips that can process photons.
澳门六合彩资料库 Davis photonic technology
Yoo鈥檚 laboratory works on various devices and circuits that use light for ultra-high-capacity image processing, computing and networking. He was initially approached by Lockheed Martin about the SPIDER project at the recommendation of DARPA, the Defense Advanced Research Projects Agency, which has funded a number of research projects in Yoo鈥檚 laboratory.
For the SPIDER project, 鈥渨e鈥檝e fabricated a chip that can collect the fringes and form images in three bands of wavelengths,鈥 Yoo said. Behind each lens are multiple waveguides that gather light from a wider field of view. Each pair of waveguides at a given band of wavelengths will form fringes. The amplitude and phase of the fringes will be processed to construct a digital image for each color.
A thin, photonic integrated circuit containing many waveguides together with many miniature lenses can create high resolution images without resorting to a large telescope structure such as Hubble telescope, Yoo said.
Much as thin displays have replaced bulky old television sets, SPIDER imaging technology could reduce the size, weight and power needs for telescopes by 10 to 100-fold. That could make a big difference for commercial and government satellites alike. The technology also promises to be more robust and flexible than complex lenses and mirrors.
The future looks bright (and light)
Yoo鈥檚 team fabricated their prototype photonic chips with facilities at the 澳门六合彩资料库 Davis College of Engineering鈥檚 Center for Nano-MicroManufacturing. The next generation of chips will be built with three-dimensional laser inscription 鈥 using an ultrafast laser to write waveguides of any shape within a solid piece of glass, using apparatus developed in Yoo鈥檚 lab.
While the SPIDER prototype today is still in its early stages with less than 100 waveguides, Yoo expects that the new generation of photonic integrated circuits created by three-dimensional laser inscription will enable highly functional and densely integrated systems.
Large-scale manufacturing of such photonic integrated circuits based on 澳门六合彩资料库 Davis鈥 technologies , the . 澳门六合彩资料库 Davis is one of the Tier-1 members of AIM Photonics, a partnership between industry, universities and government agencies formally announced by Vice President Joe Biden in July 2015. The goal of the institute is to create a national manufacturing infrastructure for photonic integrated circuits, widely accessible and inherently flexible to meet the challenges of the marketplace with practical, innovative solutions.
Media Resources
Andy Fell, News and Media Relations, 530-752-4533, ahfell@ucdavis.edu
Ben Yoo, Electrical and Computer Engineering, (530) 752-7063, yoo@ece.ucdavis.edu