The orbiter's nickname, Kaguya, was selected by the general public. It comes from the name of a lunar princess in the ancient Japanese folktaleThe Tale of the Bamboo Cutter. After their successful release, its sub-satellites, Rstar and Vstar, were named Okina and Ouna, also derived from characters in the tale.
Mission objectives
The main scientific objectives of the mission were to:
Perform radio science, especially precise measurement of the Moon's gravity field
Launch
SELENE launched on September 14, 2007 at 01:31:01 UTC on an H-IIAcarrier rocket from Tanegashima Space Center into a / geocentricparking orbit. The total launch mass was. The SELENE mission was originally scheduled to launch in 2003, but rocket failures on another mission and technical difficulties delayed the launch until 2007. Launch was planned for August 16, 2007, but was postponed when some electronic components were found to be installed incorrectly.
Lunar operations
On October 3, it entered an initial polar lunar orbit. On October 9, the relay satellite was released into a orbit, while on October 12 the VLBI satellite was released into a one. Finally, by October 19, the orbiter was in a circular orbit. The nominal mission duration was one year plus possible extensions. On October 31, 2007, Kaguya deployed its Lunar Magnetometer, Lunar Radar Sounder, Earth-looking Upper Atmosphere and Plasma Imager. On December 21, 2007, Kaguya began regular operations after all fifteen observation experiments had been satisfactorily verified. Kaguya completed the planned operation by the end of October 2008 and began extended operations planned to continue through March 2009. It would then be sent into a circular orbit, and finally to an elliptical one, with a controlled impact occurring by August 2009. Because of a degraded reaction wheel, the plan was changed so that on February 1, 2009, the orbit was lowered to ±, and impact occurred at 18:25 UTC on June 10, 2009.
Okina and Ouna were octagonal prisms to support radio science. Okina relayedradio communications between the orbiter and the Earth when the orbiter was behind the Moon. This allowed, for the first time, the direct Doppler shift measurements needed to precisely map the gravitational field of the lunar farside; previously, the farside gravity field could only be inferred by nearside measurements. The relay satellite impacted the lunar farside near the Mineur D crater at 19:46 JST on February 12, 2009.
Function: two-way radio science relay, orbiter-earth
SELENE carried 13 scientific instruments "to obtain scientific data of the lunar origin and evolution and to develop the technology for the future lunar exploration":
Two 2.2 megapixel CCD HDTV cameras, one wide-angle and one telephoto, were also on board, primarily for public relations purposes. JAXA collected names and messages that were carried on SELENE through their "Wish Upon the Moon" campaign. 412,627 names and messages were printed on a sheet measuring 280 mm x 160 mm at 70 µm per character. The sheet was installed under the photovoltaic modules and cooling panels beneath the multi-layered insulation.
Results
Major results include:
Improved lunar global topography maps. This detailed altitude and geological data is provided to Google for free to make Google Moon 3-D.
