Astronomy:Spektr

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Spektr Module
Spektr - cropped.jpg
This shot of Spektr was taken after the collision with the Progress spacecraft. Note damage to solar arrays.
Module statistics
Mission name Mir
Launch May 20, 1995
03:33:22 UTC
LC-81/23, Baikonur Cosmodrome, LC 81L, USSR
Launch vehicle Proton-K
Docked June 1, 1995
00:56:16 UTC
Depressurized June 25, 1997
Re-entry March 23, 2001
05:50:00 UTC
Time in Orbit 2134 days, 2 hours [1]
Length 9.1 m
Diameter 4.35 m [2]
Mass 43,290 lb (19,640 kg)[3]


Spektr (Russian: Спектр; English: Spectrum) (TKM-O, 77KSO, 11F77O) was the fifth module of the Mir Space Station. The module was designed for remote observation of Earth's environment containing atmospheric and surface research equipment. Spektr also had four solar arrays which generated about half of the station's electrical power.

Development

Cut-away view of Spektr

The Spektr module was originally developed as part of a top-secret military program code-named "Oktant". It was planned to carry experiments with space-borne surveillance and test antimissile defense. The surveillance instruments were mounted on the exterior of the module opposite the docking port. Also in this location were two launchers for artificial targets. The heart of the Spektr payload was an experimental optical telescope code-named "Pion” (Peony).

Instrument list:

  • 286K binocular radiometer
  • Astra 2 – monitored atmospheric trace constituents, Mir environment
  • Balkan 1 lidar – measures upper cloud altitude. Used a 5320-angstrom laser source, provided 4.5 m resolution
  • EFO 2 photometer
  • KOMZA – interstellar gas detector
  • MIRAS absorption spectrometer – had to measure neutral atmospheric composition, but couldn't work due to a failure
  • Phaza spectrometer – surface studies. Examined wavelengths between 0.340 and 285 micrometers, and provides 200 km resolution
  • Taurus/Grif – monitored Mir's induced X/gamma-ray background
  • VRIZ UV spectroradiometer

These experiments would have been a continuation of the research aboard a top-secret TKS-M module, which docked to Salyut 7 in 1985. However, with the end of the Cold War and the shrinking of Russia's space budget, the module was stuck on the ground.[2]

In the mid-1990s with the return of US-Russian cooperation in space, NASA agreed to provide funds to complete the Spektr and Priroda modules in exchange for having 600 to 700 kg of US experiments installed. The Oktava military component was replaced with a conical mounting area for two additional solar arrays. The airlock for the Oktava targets to be used instead to expose experiments to the vacuum of space.[3]

Once in orbit, Spektr served as the living quarters for American astronauts until the collision in late June 1997.

Collision

A gold-coloured solar array, bent and twisted out of shape and with several holes. The edge of a module can be seen to the right of the image, and Earth is visible in the background.
Damaged solar arrays on Spektr module following a collision with an uncrewed Progress spacecraft in September 1997. In this space rendezvous gone wrong, the Progress collided with Mir, beginning a depressurization that was halted by closing the hatch to Spektr

On June 25, 1997, the Progress M-34 spacecraft crashed into Spektr while doing an experimental docking maneuver with the Kvant-1 module.[4] The collision damaged one of Spektr's solar arrays and punctured the hull, causing a relatively slow leak. The crew had enough time to install a hatch cover and seal the module off to prevent depressurization of the entire Mir station. To seal the module, the crew had to remove the cables that were routed through the (open) hatchway, including the power cables from Spektr's solar panels.[5]

An internal spacewalk in the Spektr module in August 1997 by cosmonauts Anatoly Solovyov and Pavel Vinogradov, from Soyuz TM-26, succeeded in restoring these power connections by installing a modified hatch cover to allow the power cables to pass through the hatch when it was in the closed position. In a second internal spacewalk in October they connected two of the panels to a computer system to allow the panels to be controlled remotely and align with the Sun. These modifications allowed power generation to return to approximately 70% of the pre-collision generation capability.[6]

Spektr was left depressurized and isolated from the remainder of the Mir complex.

Gallery

References

External links