SBIR-STTR Award

Miniaturized Nightglow Interferometer for Monitoring Emissions from a CubeSat
Award last edited on: 12/26/2022

Sponsored Program
SBIR
Awarding Agency
NASA : GSFC
Total Award Amount
$874,912
Award Phase
2
Solicitation Topic Code
S5.06
Principal Investigator
Wilbert Skinner

Company Information

Michigan Aerospace Corporation (AKA: MAC)

301 W Michigan Avenue Suite A60
Ypsilanti, MI 48197
   (734) 975-8777
   info@michiganaerospace.com
   www.michiganaerospace.com
Location: Single
Congr. District: 06
County: Washtenaw

Phase I

Contract Number: 80NSSC20C0633
Start Date: 8/12/2020    Completed: 3/1/2021
Phase I year
2020
Phase I Amount
$124,942
Michigan Aerospace Corporation proposes to model a remote-sensing instrument, based around a Fabry-Perot interferometer, for sensing thermospheric winds from a CubeSat-class satellite during this Phase I base effort. This work will provide an important, relatively inexpensive and compact instrument option for measuring thermospheric winds, with implications for improving space weather observations and forecasts and improving the modeling of the solar/terrestrial interaction. Michigan Aerospace’s extensive experience with Fabry-Perot interferometers and sensor systems based on them, including for thermospheric sensing, will help pave the path towards this program’s success. Potential NASA Applications (Limit 1500 characters, approximately 150 words) Measuring thermospheric winds from a CubeSat-class satellite will allow more widespread space-based observations of this important component of space weather, with orbits chosen to be optimal for the purposes of the observations. Also, such a small sensor could serve as a secondary or tertiary payload aboard other satellites. The resulting data will help refine NASA models for space weather forecasting and thermospheric modeling efforts. Potential Non-NASA Applications (Limit 1500 characters, approximately 150 words) The military has interests similar to NASA in better space forecasting and modeling, as it is important for the protection of space-based assets, terrestrial power, and other military networks. Civilian users will benefit from improved NASA modeling of space weather than can affect user networks and satellites.

Phase II

Contract Number: 80NSSC21C0474
Start Date: 7/8/2021    Completed: 7/7/2023
Phase II year
2021
Phase II Amount
$749,970
Michigan Aerospace Corporation proposes to design and construct an engineering model version of a remote-sensing instrument, based around a Fabry-Perot interferometer, for sensing thermospheric winds and temperatures from a CubeSat-class satellite. This instrument will provide an important, relatively inexpensive and compact means for measuring important elements of the state of the thermosphere, with implications for improving space weather observations and forecasts and improving the modeling of the solar/terrestrial interaction. A relatively low-cost instrument on a cubesat allows for the possibility of multiple satellites in various orbit to obtain a more complete picture of the thermosphere than currently available from single platforms for a reasonable cost. Michigan Aerospace’s extensive experience with Fabry-Perot interferometers and sensor systems based on them, including for thermospheric sensing, will help pave the path towards this program’s success. Potential NASA Applications (Limit 1500 characters, approximately 150 words): Measuring thermospheric winds from a CubeSat-class satellite will allow morewidespread space-based observations of this important component of space weather,with orbits chosen to be optimal for the purposes of the observations. Also, such a smallsensor could serve as a secondary or tertiary payload aboard other satellites. Theresulting data will help refine NASA models for space weather forecasting andthermospheric modeling efforts. Potential Non-NASA Applications (Limit 1500 characters, approximately 150 words): The military has interests similar to NASA in better space forecasting and modeling, as itis important for the protection of space-based assets, terrestrial power, and othermilitary networks. Civilian users will benefit from improved NASA modeling of spaceweather than can affect user networks and satellites. Duration: 24