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Proceedings Paper

Frequency stabilized lasers for space applications
Author(s): Mike Lieber; Mike Adkins; Robert Pierce; Robert Warden; Cynthia Wallace; Carl Weimer
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Paper Abstract

metrology, spectroscopy, atomic clocks and geodesy. This technology will be a key enabler to several proposed NASA science missions. Although lasers such as Q-switched Nd-YAG are now commonly used in space, other types of lasers - especially those with narrow linewidth - are still few in number and more development is required to advance their technology readiness. In this paper we discuss a reconfigurable laser frequency stabilization testbed, and end-to-end modeling to support system development. Two important features enabling testbed flexibility are that the controller, signal processing and interfaces are hosted on a field programmable gate array (FPGA) which has spacequalified equivalent parts, and secondly, fiber optic relay of the beam paths. Given the nonlinear behavior of lasers, FPGA implementation is a key system reliability aspect allowing on-orbit retuning of the control system and initial frequency acquisition. The testbed features a dual sensor system, one based upon a high finesse resonator cavity which provides relative stability through Pound-Drever-Hall (PDH) modulation and secondly an absolute frequency reference by dither locking to an acetylene gas cell (GC). To provide for differences between ground and space implementation, we have developed an end-to-end Simulink/ Matlab®-based control system model of the testbed components including the important noise sources. This model is in the process of being correlated to the testbed data which then can be used for trade studies, and estimation of space-based performance and sensitivities. A 1530 nm wavelength semiconductor laser is used for this initial work.

Paper Details

Date Published: 17 September 2014
PDF: 15 pages
Proc. SPIE 9226, Nanophotonics and Macrophotonics for Space Environments VIII, 922605 (17 September 2014); doi: 10.1117/12.2060330
Show Author Affiliations
Mike Lieber, Ball Aerospace & Technologies Corp. (United States)
Mike Adkins, Ball Aerospace & Technologies Corp (United States)
Robert Pierce, Ball Aerospace & Technologies Corp. (United States)
Robert Warden, Ball Aerospace & Technologies Corp. (United States)
Cynthia Wallace, Ball Aerospace & Technologies Corp. (United States)
Carl Weimer, Ball Aerospace & Technologies Corp. (United States)

Published in SPIE Proceedings Vol. 9226:
Nanophotonics and Macrophotonics for Space Environments VIII
Edward W. Taylor; David A. Cardimona, Editor(s)

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