F
Fred V. Richard
Researcher at Motorola
Publications - 39
Citations - 882
Fred V. Richard is an academic researcher from Motorola. The author has contributed to research in topics: Monocrystalline silicon & Waveguide (optics). The author has an hindex of 18, co-authored 39 publications receiving 882 citations. Previous affiliations of Fred V. Richard include Freescale Semiconductor.
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Patent
Direct retinal scan display with planar imager
Fred V. Richard,Michael S. Lebby +1 more
TL;DR: In this paper, a display which writes an image directly on the retina of an eye is described, which includes a laser which produces a collimated light beam that is modulated with video information and is then scanned and directed through the eye pupil to produce an image.
Patent
Solder-bump attached optical interconnect structure utilizing holographic elements and method of making same
TL;DR: In this paper, a planar optical waveguide is coupled to the integrated circuits by means of controlled collapse chip connection, or solder bump, technology, which allows the transfer of data within a single integrated circuit as well as the interconnection of multiple integrated circuits.
Patent
Front illuminator for a liquid crystal display and method of making same
TL;DR: A front illumination device for illuminating a reflective liquid crystal display cell (42) having a light source (12), a light guide (20), and a light coupling element (22) was proposed in this article.
Patent
Optical waveguide including superstrate of niobium or silicon oxynitride and method of making same
TL;DR: In this article, an optical waveguide is placed in the same plane as the electrodes, thereby creating a more efficient electro optic interaction that requires less voltage to induce the desired effects on the waveguide.
Patent
Simultaneous bidirectional optical interconnect
TL;DR: In this paper, an optical interconnect system facilitates the simultaneous bi-directional transfer of data between facing integrated circuits, where the laser simultaneously emits two oppositely directed continuous beams of light.