Presentation + Paper
4 March 2019 The effects of gamma radiation on digital micromirror devices
Kathleen Oram, Dmitry Vorobiev, Zoran Ninkov, Alexis Irwin, Jonathan A. Pellish, Martin Carts, Stephen K. Brown
Author Affiliations +
Abstract
Digital micromirror devices (DMDs) are well suited for highly multiplexed spectroscopy applications. In astronomy, DMDs can be used as a programmable slit mask in a multi-object spectrometer (MOS). There is strong interest in utilizing DMDs for space-based MOS instruments. Over the past several years, we have carried out a program to evaluate the viability of XGA DMDs for operation in space, including their ability to survive the launch environment. The DMDs we tested did not show any failures or adverse effects after mechanical vibration and shock testing. Using heavy ion irradiation, we found that DMDs are susceptible to single event upsets (SEUs), though all SEUs are non-destructive and can be cleared by loading a new pattern. The estimated SEU rate for ”worst week” conditions in interplanetary space was 5.6 upset micromirrors (out of 786,432) per 24 hours. Using high energy protons, we found that DMDs started to show failures at a total ionizing dose of 30 krad(Si) (which is well above the estimated total-dose for a 4 year mission). In this work, we present the total ionizing dose testing performed using gamma rays from a Co-60 source at NASA GSFC. We tested 14 XGA devices and found that individual micromirrors began failing after the devices accumulated a total dose of 16-19 krad(Si). Devices recovered after annealing at room temperature in as little as 24 hours. Devices subjected to the most severe radiation testing conditions were completely recovered after 18 weeks of annealing at room temperature. We also tested unbiased (powered off) devices, which showed no effects up to a dose of 76 krad(Si) (which is the highest TID we achieved during our testing). This work concludes our efforts to space-qualify XGA DMDs, and shows that these devices are well-suited for deployment in space, except in the harshest radiation environments.
Conference Presentation
© (2019) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Kathleen Oram, Dmitry Vorobiev, Zoran Ninkov, Alexis Irwin, Jonathan A. Pellish, Martin Carts, and Stephen K. Brown "The effects of gamma radiation on digital micromirror devices", Proc. SPIE 10932, Emerging Digital Micromirror Device Based Systems and Applications XI, 109320V (4 March 2019); https://doi.org/10.1117/12.2508935
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KEYWORDS
Digital micromirror devices

Mirrors

Gamma radiation

Commercial off the shelf technology

Micromirrors

Space operations

Astronomical imaging

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