Peter G. Goetz
United States Naval Research Laboratory
88 Papers
642 Citations
Peter G. Goetz is an academic researcher from United States Naval Research Laboratory. The author has contributed to research in topics: Free-space optical communication & Optical communication. The author has an hindex of 18, co-authored 87 publications. Previous affiliations of Peter G. Goetz include Government of the United States of America & United States Department of the Navy.
Chat about Author
Papers
Free-space optical communications link at 1550 nm using multiple-quantum-well modulating retroreflectors in a marine environment
W. S. Rabinovich,Rita Mahon,Harris R. Burris,G. C. Gilbreath,Peter G. Goetz,Christopher I. Moore,Mena F. Stell,Michael J. Vilcheck,Jennifer L. Witkowsky,Lee Swingen +9 more
TL;DR: In this paper, a 1550-nm free-space optical communications link is demonstrated at rates up to 5 Mbits/s over a distance of 2 km in the Chesapeake Bay, using quantum-well-based modulating retroreflectors.
103
Free-space optical communications research and demonstrations at the U.S. Naval Research Laboratory
W. S. Rabinovich,Christopher I. Moore,Rita Mahon,Peter G. Goetz,Harris R. Burris,Mike S. Ferraro,James L. Murphy,Linda M. Thomas,G. C. Gilbreath,Michael J. Vilcheck,M. R. Suite +10 more
TL;DR: Free-space optical communication can allow high-bandwidth data links that are hard to detect, intercept, or jam, but these links also require very accurate pointing, and their availability is affected by weather.
87
High-Current Photodetectors as Efficient, Linear, and High-Power RF Output Stages
TL;DR: In this paper, the authors describe two photodetector designs which demonstrate excellent large and small-signal behavior, achieving high linearity RF power amplifiers with a linearity figure of merit of 50.
80
45-Mbit/s cat’s-eye modulating retroreflectors
William S. Rabinovich,Peter G. Goetz,Rita Mahon,Lee Swingen,James L. Murphy,Michael Ferraro,H. Ray Burris,Christopher I. Moore,M. R. Suite,G. Charmaine Gilbreath,Steven C. Binari,David Klotzkin +11 more
TL;DR: In this paper, a new kind of MQW MRR using a cat's-eye retroreflector was proposed, which decouples the size of the modulator from the diameter of the optical aperture and allows much higher data rates.
74
A surface-normal coupled-quantum-well modulator at 1.55 /spl mu/m
TL;DR: In this paper, a surface-normal coupled-quantum-well InGaAs-InAlAs electroabsorption modulator with a contrast ratio in excess of 1.5 at only 6 V was demonstrated.
52