Mr. Michael J. Berry Profile

Michael J. Berry

at CACI International Inc

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Proceedings Article | 4 March 2022 Presentation + Paper

Qualification and performance of a high-efficiency laser transmitter for deep-space optical communications

M. Dinu, R. Ahrens, T. Sochor, J. Dailey, R. Prego, M. Berry, L. Crandall, J. Kolchmeyer, A. Monte, J. Engelberth, T. Caltabellotta, D Drewing, J. Le Grange, N. Wendt, M. Wright, J. Jaques

Proceedings Volume 11993, 119930G (2022) https://doi.org/10.1117/12.2613448

KEYWORDS: Free space optical communications, Laser communications, High power fiber amplifiers, Reliability, Optical amplifiers

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A high-power Laser Transmitter Assembly (LTA) was developed to support the Deep Space Optical Communications (DSOC) technology demonstration being developed by the Jet Propulsion Laboratory. NASA’s Psyche Mission plans to host the DSOC flight subsystem for testing space-to-ground high-bandwidth laser communications en route to the 16-Psyche asteroid. We review the design, performance, and qualification of the LTA Engineering Model and Flight Model (EM and FM) delivered to JPL. The LTA uses a master-oscillator power amplifier (MOPA) design and delivers up to 4.5 W at 1550 nm, with a highly efficient, cladding-pumped, polarization-maintaining erbium-ytterbium fiber amplifier. The master oscillator generates a range of pulse widths and repetition rates to support modulation formats from 16- to 128-PPM for optical data transmission at <100 Mbps. The LTA was designed for high reliability and radiation hardness, and includes redundant signal and pumping paths to reduce single points of failure, hardware interlocks to ensure safe operation and protection against damage, closed-loop control of optical power, and detailed health and status via telemetry. The LTA EM and FM were subjected to unit-appropriate space qualification testing. We describe the performance testing of the EM and FM, for the characterization of key metrics such as wavelength stability, signal linewidth, optical pulse width, jitter, and extinction ratio, and polarization extinction ratio. The management of optical nonlinearities (selfphase modulation, Brillouin scattering, or pulse-to-pulse energy variation), which could result in an optical link penalty or damage to the LTA, is also detailed, and factors affecting the power efficiency are discussed.

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