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TIMED

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TIMED
TIMED in Low Earth orbit.
Mission typeIonosphere
Atmospheric science
Space weather research.
OperatorNASA
COSPAR ID2001-055B Edit this at Wikidata
SATCAT no.26998
WebsiteTIMED at APL
Mission duration2 years (planned)
Elapsed: 22 years, 11 months, 3 days (ongoing)
Spacecraft properties
ManufacturerApplied Physics Laboratory
Launch mass660 kilograms (1,460 lb)
Power300 W (nominal)
Start of mission
Launch date7 December 2001, 15:07:35 (2001-12-07UTC15:07:35Z) UTC
RocketDelta II 7920-10 D289
Launch siteVandenberg SLC-2W
Orbital parameters
Reference systemGeocentric
RegimeLow Earth
Semi-major axis6,983.0 kilometers (4,339.0 mi)
Eccentricity0.0000651
Perigee altitude611.7 kilometers (380.1 mi)
Apogee altitude612.6 kilometers (380.7 mi)
Inclination74.0722º
Period96.8 minutes
RAAN302.7819 degrees
Argument of perigee343.2534 degrees
Mean anomaly16.86255 degrees
Mean motion14.87734465
Epoch26 June 2016
Revolution no.78858
Hinode →

The TIMED (Thermosphere Ionosphere Mesosphere Energetics and Dynamics) is an orbiter mission dedicated to study the dynamics of the Mesosphere and Lower Thermosphere (MLT) portion of the Earth's atmosphere. The mission was launched from Vandenberg Air Force Base in California on December 7, 2001 aboard a Delta II rocket launch vehicle. The project is sponsored and managed by NASA, while the spacecraft was designed and assembled by the Applied Physics Laboratory at Johns Hopkins University. The mission has been extended several times, and has now collected data over an entire solar cycle, which helps in its goal to differentiate the Sun's effects on the atmosphere from other effects.[1]

Atmospheric region under study

TIMED Mission diagram (NASA)

The Mesosphere and Lower Thermosphere (MLT) region of the atmosphere to be studied by TIMED is located between 60–180 km above the Earth's surface where energy from solar radiation is first deposited into the atmosphere. This can have profound effects on Earth's upper atmospheric regions, particularly during the peak of the Sun's 11-year solar cycle when the greatest amounts of its energy are being released. Understanding these interactions is also important for our understanding of various subjects in geophysics, meteorology, and atmospheric science, as solar radiation is one of the primary driving forces behind atmospheric tides. Changes in the MLT can also affect modern satellite and radio telecommunications.

Scientific instruments

The spacecraft payload consists of the following four main instruments:

  • Global Ultraviolet Imager (GUVI): A spatial-scanning, far-ultraviolet spectrograph designed to globally measure the composition and temperature profiles of the MLT region, as well as its auroral energy inputs.
  • Solar Extreme Ultraviolet Experiment (SEE): A spectrometer and a suite of photometers designed to measure the solar soft X-rays, extreme-ultraviolet and far-ultraviolet radiation that is deposited into the MLT region.
  • TIMED Doppler Interferometer (TIDI): Designed to globally measure the wind and temperature profiles of the MLT region.
  • Sounding of the Atmosphere using Broadband Emission Radiometry (SABER): Multichannel radiometer designed to measure heat emitted by the atmosphere over a broad altitude and spectral range, as well as global temperature profiles and sources of atmospheric cooling.

Specifications

  • Mass: 660 kilograms
  • Dimensions:
    • 2.72 meters high
    • 1.61 meters wide (launch configuration)
    • 11.73 meters wide (solar arrays deployed)
    • 1.2 meters deep
  • Power consumption: 406 watts
  • Data downlink: 4 megabits per second
  • Memory: 5 gigabits
  • Control & data handling processor: Mongoose-V
  • Attitude:
    • Control - Within 0.5 degrees
    • Knowledge - Within 0.03 degrees
    • Processor: RTX2010
  • Total mission cost:
    • Spacecraft: $195 million
    • Ground operations: $42 million

Instrument teams

United States

International

See also

References

  1. ^ Fox, Karen. "Ten Successful Years of Mapping the Middle Atmosphere". NASA.