HALCA (Highly Advanced Laboratory for Communications and Astronomy), also known for its project name VSOP (VLBI Space Observatory Programme), the code name MUSES-B (for the second of the
Mu Space Engineering Spacecraft series), or just Haruka (はるか) was a Japanese 8 meter diameter
radio telescope satellite which was used for
Very Long Baseline Interferometry (VLBI). It was the first such space-borne dedicated VLBI mission.
History
It was placed in a highly elliptical orbit with an
apogee
An apsis (; ) is the farthest or nearest point in the orbit of a planetary body about its primary body. For example, the apsides of the Earth are called the aphelion and perihelion.
General description
There are two apsides in any el ...
altitude of 21,400 km and a
perigee
An apsis (; ) is the farthest or nearest point in the orbit of a planetary body about its primary body. For example, the apsides of the Earth are called the aphelion and perihelion.
General description
There are two apsides in any el ...
altitude of 560 km, with an orbital period of approximately 6.3 hours. This orbit allowed imaging of celestial radio sources by the satellite in conjunction with an array of ground-based radio telescopes, such that both good (u,v) plane coverage and very high resolution were obtained.
Although designed to observe in three frequency bands: 1.6 GHz, 5.0 GHz, and 22 GHz, it was found that the sensitivity of the 22 GHz band had severely degraded after orbital deployment, probably caused by vibrational deformation of the dish shape at launch, thus limiting observations to the 1.6 GHz and 5.0 GHz bands.
HALCA was launched in February 1997 from
Kagoshima Space Center, and made its final VSOP observations in October 2003, far exceeding its 3-year predicted lifespan, before the loss of attitude control. All operations were officially ended in November 2005.
A follow-up mission
ASTRO-G (VSOP-2) was planned, with a proposed launch date of 2012, but the project was eventually cancelled in 2011 due to increasing costs and the difficulties of achieving its science goals. It was expected to achieve resolutions up to ten times higher and up to ten times greater sensitivity than its predecessor HALCA.
The cancellation of ASTRO-G left the Russian
Spektr-R mission as the only then operational space VLBI facility.
Antenna
The large 8 meter antenna was designed to unfold in space as the unfolded configuration did not fit inside the rocket fairing. The antenna was a metal mesh of 6000 cables. To form an ideal shape the length of the cables were adjusted on the backside of the antenna. One concern was that the cables could entangle. The deployment of the main reflector started on February 27, 1997. The deployment was done over three hours on the first day and was completed in 20 minutes during the next day.
Highlights
*Observations of hydroxyl
masers and
pulsars at 1.6 GHz
*Detection of interference fringes for
quasar PKS1519-273 between HALCA and terrestrial radio telescopes
*Routines imaging of quasars and
radio galaxies etc. by means of experimental VLBI observations with HALCA and terrestrial radio telescope networks
Gallery
Haruka HALCA VSOP MUSES-B deployment test.jpg, Haruka during a deployment test
Haruka HALCA VSOP MUSES-B launch.jpg, Launch of Haruka on board of a M-V rocket
1.6 GHz image of M87, VLA and VLBA + HALCA.jpg, The large image shows M87 as observed with the VLA, the insert shows observations with the VLBA and HALCA
VSOP J1927+7358.gif, Multi-epoch observations of the quasar VSOP J1927+7358, observed with VSOP between 1997 and 2001
Animation of HALCA around Earth.gif, Animation of HALCA around the Earth
References
External links
HALCAVSOP
{{Authority control
Radio telescopes
Space telescopes
Satellites of Japan
Spacecraft launched in 1997