Student Nitric Oxide Explorer

Student Nitric Oxide Explorer

SNOE satellite
Names Explorer 72, STEDI 1
Mission type Atmospheric research
Operator CU Boulder (LASP)[1]
COSPAR ID 1998-012A
SATCAT no. 25223
Website lasp.colorado.edu/home/snoe/
Mission duration Final: 5 years, 9 months, 17 days
Spacecraft properties
Manufacturer CU Boulder (LASP)[1]
Launch mass 115 kg (254 lb)[2]
Dimensions 1.0 × 0.9 m (3.2 × 3.1 ft)[3]
Power 37 watts
Start of mission
Launch date February 26, 1998, 07:07 (1998-02-26UTC07:07) UTC[4]
Rocket Pegasus XL HAPS F20
Launch site Vandenberg (Stargazer)
Contractor Orbital Sciences
Entered service March 11, 1998[5]
End of mission
Disposal Atmospheric reentry
Decay date ≈December 13, 2003, 09:34 (2003-12-13UTC09:35) UTC[1]
Orbital parameters
Reference system Geocentric
Regime Sun-synchronous
Eccentricity 0.00324
Perigee 535 km (332 mi)
Apogee 580 km (360 mi)
Inclination 97.7°
Period 95.80 minutes
Epoch February 26, 1998, 02:07 UTC[4]

The Student Nitric Oxide Explorer (SNOE), also known as Explorer 72 and STEDI 1, was a small scientific satellite which studied the concentration of nitric oxide in the thermosphere. It was launched in 1998 as part of NASA's Explorers program. The satellite was the first of three missions developed within the Student Explorer Demonstration Initiative (STEDI) funded by NASA. The satellite was developed by the University of Colorado Boulder's Laboratory for Atmospheric and Space Physics (LASP) and had met its goals by the time its mission ended with reentry on December 13, 2003.

Spacecraft

SNOE had a compact hexagonal structure 0.99 m (3.23 ft) high and 0.94 m (3.08 ft) wide with a mass of 115 kg (254 lb).[3][6] It was spin-stabilized at five revolutions per minute, and its axis of rotation was perpendicular to the orbital plane. The exterior of the satellite was covered with solar cells that provide 37 watts.[7]

Instruments

SNOE was equipped with three scientific instruments:[8]

The satellite features a GPS receiver to accurately determine its orbit and orientation.

Overview

SNOE was the 72nd mission of the Explorer program by NASA dedicated to the scientific investigation of the space environment of the Earth. SNOE was the first of three projects developed within the university satellite program (STEDI) whose objective is to reach students in the development of satellites with limited means in the context of the strategy of "faster, better, cheaper" promoted by then-NASA administrator Daniel Goldin. The program was funded by NASA and managed by the Universities Space Research Association. The mission, developed by the University of Colorado Boulder in 1994, was selected among 66 proposals to be one of the six pre-selected satellites of the program. In February 1995 the satellite was selected along with TERRIERS of Boston University and CATSAT of the University of Leicester in the United Kingdom. SNOE was built and operated entirely by the Laboratory for Atmospheric and Space Physics of the university.

The objective of the mission was the detailed study of variations in the concentration of nitrogen monoxide in the thermosphere. Nitric oxide, though a minor component of this region of space, has a significant impact on the composition of ions in the ionosphere and in the heat of the thermosphere. The detailed objectives are:

SNOE was launched on 26 February 1998 at 07:07 UTC by a Pegasus-XL rocket, along with the Teledesic T1 satellite. The rocket was lofted by Orbital Sciences' Stargazer L-1011 aircraft based out of Vandenberg Air Force Base. SNOE was placed into a Sun-synchronous orbit of 535 by 580 km (332 by 360 mi) with an inclination of 97.7 degrees. The spacecraft functioned normally until its orbit degraded and it reentered the atmosphere on 13 December 2003.[4]

Selected science results

The limb-scanning Ultraviolet Spectrometer on SNOE observed polar mesospheric clouds, finding that PMCs occur more frequently in the northern latitudes than in the southern, but that they otherwise conform well to the standard model of cloud formation.[9] SNOE also helped to map the effect of global X-rays on the atmosphere.[5]

Enhanced fluxes of solar soft X-rays were detected by SNOE. Solar soft X-ray irradiance was measured by the spacecraft's Solar X-ray Photometer (SXP) between 2 and 20 nm, and covered irradiance levels outside of solar minimum and maximum conditions. In the 2 to 7 nm interval the irradiance levels ranged from 0.3 to 2.5 mW/m2, while in the 6 to 19 nm interval the range was observed to be 0.5 to 3.5 mW/m2. These values were a factor of four times higher than those predicted by the Hinteregger, et al. (1981) empirical model.[5]

References

  1. 1 2 3 Wade, Mark. "SNOE". Encyclopedia Astronautica. Retrieved March 26, 2017.
  2. Solomon, Stanley C.; Bailey, Scott M.; Barth, Charles A.; Davis, Randal L.; Donnelly, John A.; et al. (1998). The SNOE Spacecraft: Integration, Test, Launch, Operation, and On-orbit Performance (PDF). 12th AIAA/USU Conference on Small Satellites. 1998. Logan, Utah.
  3. 1 2 "Launch vehicle dynamic envelope diagram". University of Colorado Boulder. Laboratory for Atmospheric and Space Physics. Retrieved March 26, 2017.
  4. 1 2 3 "SNOE - Trajectory Details". National Space Science Data Center. NASA. Retrieved June 28, 2016.
  5. 1 2 3 Bailey, Scott M.; Woods, T. N.; Barth, C. A.; et al. (December 2000). "Measurements of the solar soft X-ray irradiance by the Student Nitric Oxide Explorer: First analysis and underflight calibrations". Journal of Geophysical Research. 105 (A12): 27179–27194. Bibcode:2000JGR...10527179B. doi:10.1029/2000JA000188.
  6. "Spacecraft Structure". University of Colorado Boulder. Laboratory for Atmospheric and Space Physics. Retrieved March 26, 2017.
  7. Solomon, Stanley C.; Barth, Charles A.; Axelrad, Penina; Bailey, Scott M.; Brown, Ronald; et al. (October 1996). "The Student Nitric Oxide Explorer" (PDF). Proceedings of the SPIE: Space Sciencecraft Control and Tracking in the New Millennium. 2810: 121–132. Bibcode:1996SPIE.2810..121S. doi:10.1117/12.255131. Archived from the original (PDF) on 11 June 2010.
  8. "Spacecraft Specs: Instruments". University of Colorado Boulder. Laboratory for Atmospheric and Space Physics. Retrieved March 26, 2017.
  9. Bailey, Scott M.; Merkel, Aimee W.; Thomas, Gary E.; et al. (July 2005). "Observations of polar mesospheric clouds by the Student Nitric Oxide Explorer". Journal of Geophysical Research: Atmospheres. 110 (D13). Bibcode:2005JGRD..11013203B. doi:10.1029/2004JD005422. D13203.
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