76-955: [REDACTED] Look up akatsuki in Wiktionary, the free dictionary. Akatsuki ( 暁 ) may refer to: Akatsuki (spacecraft) , an uncrewed Venus orbiter Akatsuki -class destroyer , any of three classes of destroyers of the Imperial Japanese Navy Japanese destroyer Akatsuki , any of three destroyers of the Imperial Japanese Navy Akatsuki (train) , operated between Kyoto and Nagasaki in Japan Japanese patrol vessel Akatsuki , launched in 2020 Akatsuki Japan Japan's national men's basketball team Japan's national women's basketball team Fiction [ edit ] Akatsuki (TV series) ,
152-625: A hard X-ray detector (HXD). However, the XRS was rendered inoperable due to a malfunction which caused the satellite to lose its supply of liquid helium. The next JAXA x-ray mission is the Monitor of All-sky X-ray Image (MAXI) . MAXI continuously monitors astronomical X-ray objects over a broad energy band (0.5 to 30 keV). MAXI is installed on the Japanese external module of the ISS. On 17 February 2016, Hitomi (ASTRO-H)
228-399: A Japanese television drama series Akatsuki ( Naruto ) , a criminal organization in the manga series Naruto Akatsuki, a character in the video game Kantai Collection ORB-01 Akatsuki , a weapon in the anime series Mobile Suit Gundam SEED Destiny Akatsuki, a weapon in the anime series Code Geass Akatsuki , a character in the novel series Log Horizon Akatsuki Kain,
304-401: A character in the anime series Symphogear See also [ edit ] All pages with titles containing Akatsuki Ōmagatoki , a Japanese word for "dusk" Topics referred to by the same term [REDACTED] This disambiguation page lists articles associated with the title Akatsuki . If an internal link led you here, you may wish to change the link to point directly to
380-462: A character in the manga series Vampire Knight Akatsuki, a city in the manga series Tegami Bachi Akatsuki, a character in the video game Akatsuki Blitzkampf Akatsuki Ousawa, a character in the novel series Aesthetica of a Rogue Hero Akatsuki Augus-Mixta, a character in the anime series Mobile Suit Gundam: Iron-Blooded Orphans Akatsuki, a three man team in the video game .hack//G.U. Volume I //Rebirth Kirika Akatsuki,
456-498: A future mission. On 14 September 2007, JAXA succeeded in launching the lunar orbit explorer Kaguya , also known as SELENE, on an H-2A rocket (costing 55 billion yen including launch vehicle), the largest such mission since the Apollo program . Its mission was to gather data on the Moon's origin and evolution . It entered lunar orbit on 4 October 2007. After 1 year and 8 months, it impacted
532-607: A miniature satellite into orbit atop one of its SS520 series rockets. A second attempt on 2 February 2018 was successful, putting a four kilogram CubeSat into Earth orbit. The rocket, known as the SS-520-5, is the world's smallest orbital launcher. In 2023, JAXA began operating the H3 , which will replace the H-IIA and H-IIIB; the H3 is a liquid-fueled launch vehicle developed from a completely new design like
608-416: A periapsis altitude of 300 km (190 mi), and a 30 h orbital period . The orbit insertion maneuver was confirmed to have started on time, but after the expected blackout due to occultation by Venus, the communication with the probe did not recover as planned. The probe was found to be in safe-hold mode, spin-stabilized state with ten minutes per rotation. Due to the low communication speed through
684-475: A phenomenon in which the cloud top winds in the troposphere circulates around the planet faster than the speed that Venus itself rotates. A thorough explanation for this phenomenon has yet been found. JAXA/ISAS was part of the international Laplace Jupiter mission proposal from its foundation. A Japanese contribution was sought in the form of an independent orbiter to research Jupiter's magnetosphere, JMO (Jupiter Magnetospheric Orbiter). Although JMO never left
760-471: Is not pointed towards Earth. The mission was considered fully successful after confirmation that its primary goal, landing within 100 m (330 ft) of the target was achieved, despite subsequent issues. On 29 January, the lander resumed operations after being shutdown for a week. JAXA said it re-established contact with the lander and its solar cells were working again after a shift in lighting conditions allowed it to catch sunlight. After that, SLIM
836-503: Is planned to have a temperature of just 4.5 K and will be much colder. Unlike Akari, which had a geocentric orbit , SPICA will be located at Sun–Earth L 2 . The launch is expected in 2027 or 2028 on JAXA's new H3 Launch Vehicle , however the mission is not yet fully funded. ESA and NASA may also each contribute an instrument. The SPICA mission was cancelled in 2020. Starting from 1979 with Hakucho (CORSA-b), for nearly two decades Japan had achieved continuous observation. However, in
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#1732855850512912-508: Is reviewing a new spacecraft mission to the Martian system; a sample return mission to Phobos called MMX (Martian Moons Explorer). First revealed on 9 June 2015, MMX's primary goal is to determine the origin of the Martian moons . Alongside collecting samples from Phobos, MMX will perform remote sensing of Deimos , and may also observe the atmosphere of Mars as well. As of December 2023, MMX
988-515: Is the first all sky survey since the first infrared mission IRAS in 1983. (A 3.6 kg nanosatellite named CUTE-1.7 was also released from the same launch vehicle.) JAXA is also doing further R&D for increasing the performance of its mechanical coolers for its future infrared mission, SPICA . This would enable a warm launch without liquid helium. SPICA has the same size as the ESA Herschel Space Observatory mission, but
1064-550: Is the first spacecraft to use a ceramic ( silicon nitride ) retrofire thruster. The total propellant mass at launch was 196.3 kg (433 lb). Communication is via an 8 GHz, 20-watt X-band transponder using the 1.6 m (5 ft 3 in) high-gain antenna. The high-gain antenna is flat to prevent heat from building up in it. Akatsuki also has a pair of medium-gain horn antennas mounted on turntables and two low-gain antennas for command uplink. The medium-gain horn antennas are used for housekeeping data downlink when
1140-456: Is to be launched in fiscal year 2026. On 9 August 2004, ISAS successfully deployed two prototype solar sails from a sounding rocket. A clover-type sail was deployed at 122 km altitude and a fan type sail was deployed at 169 km altitude. Both sails used 7.5 micrometer -thick film. ISAS tested a solar sail again as a sub-payload to the Akari (ASTRO-F) mission on 22 February 2006. However
1216-566: Is to have a solar sail mission to Jupiter after 2020. The first Japanese astronomy mission was the X-ray satellite Hakucho (CORSA-b), which was launched in 1979. Later ISAS moved into solar observation, radio astronomy through space VLBI and infrared astronomy. Active Missions: SOLAR-B , MAXI , SPRINT-A , CALET , XRISM Under Development: Retired: HALCA , ASTRO-F , ASTRO-EII , and ASTRO-H Cancelled(C)/Failed(F): ASTRO-E (F), ASTRO-G (C), Japan's infrared astronomy began with
1292-450: The Akatsuki orbiter revealed something similar to jet stream winds in the low and middle cloud region, which extends from 45 to 60 kilometres (28 to 37 mi) in altitude. The wind speed maximized near the equator. In September 2017, JAXA scientists named this phenomenon 'Venusian equatorial jet'. They also published results on equatorial winds at the cloud-top level by tracking clouds on
1368-727: The H-II Transfer Vehicle six times. This cargo spacecraft was responsible for resupplying the Kibo Japanese Experiment Module on the International Space Station . To be able to launch smaller mission on JAXA developed a new solid-fueled rocket, the Epsilon as a replacement to the retired M-V . The maiden flight successfully happened in 2013. So far, the rocket has flown six times with one launch failure. In January 2017, JAXA attempted and failed to put
1444-632: The Hiten lunar mission in 1990. The first Japanese interplanetary mission was the Mars Orbiter Nozomi (PLANET-B), which was launched in 1998. It passed Mars in 2003, but failed to reach Mars orbit due to maneuvering systems failures earlier in the mission. Currently interplanetary missions remain at the ISAS group under the JAXA umbrella. However, for FY 2008 JAXA is planning to set up an independent working group within
1520-524: The Ministry of Internal Affairs and Communications (MIC). Before the merger, ISAS was responsible for space and planetary research, while NAL was focused on aviation research. ISAS had been most successful in its space program in the field of X-ray astronomy during the 1980s and 1990s. Another successful area for Japan has been Very Long Baseline Interferometry (VLBI) with the HALCA mission. Additional success
1596-611: The Venus Climate Orbiter ( VCO ) and Planet-C , was a Japan Aerospace Exploration Agency (JAXA) space probe tasked with studying the atmosphere of Venus . It was launched aboard an H-IIA 202 rocket on 20 May 2010, but failed to enter orbit around Venus on 6 December 2010. After the craft orbited the Sun for five years, engineers successfully placed it into an alternative Venusian elliptic orbit on 7 December 2015 by firing its attitude control thrusters for 20 minutes and made it
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#17328558505121672-524: The inner Solar System , and emphasis has been put on magnetospheric and atmospheric research. The Mars explorer Nozomi (PLANET-B), which ISAS launched prior to the merger of the three aerospace institutes, became one of the earliest difficulties the newly formed JAXA faced. Nozomi ultimately passed 1,000 km from the surface of Mars. On 20 May 2010, the Venus Climate Orbiter Akatsuki (PLANET-C) and IKAROS solar sail demonstrator
1748-534: The 15-cm IRTS telescope which was part of the SFU multipurpose satellite in 1995. ISAS also gave ground support for the ESA Infrared Space Observatory (ISO) infrared mission. JAXA's first infrared astronomy satellite was the Akari spacecraft, with the pre-launch designation ASTRO-F . This satellite was launched on 21 February 2006. Its mission is infrared astronomy with a 68 cm telescope. This
1824-694: The 7 December orbital insertion, JAXA announced on 9 December that Akatsuki had successfully entered the intended elliptical orbit, as far as 440,000 km (270,000 mi) from Venus, and as close as 400 km (250 mi) from Venus's surface with an orbital period of 13 days and 14 hours. A follow-up thruster burn on 26 March 2016 lowered Akatsuki' s apoapsis to about 370,000 km (230,000 mi), periapsis altitude periodically changing from 1,000 to 10,000 kilometres (620 to 6,210 mi), and shortened its orbital period from 13 to about 10 days. The orbiter started its two-year period of "regular" science operations in mid-May 2016. Since 9 December 2016,
1900-584: The H-II, rather than an improved development like the H-IIA and H-IIB, which were based on the H-II. The design goal of the H3 is to increase launch capability at a lower cost than the H-IIA and H-IIB. To achieve this, an expander bleed cycle was used for the first time in the world for the first stage of the engine. Japan's first missions beyond Earth orbit were the 1985 Halley's comet observation spacecraft Sakigake (MS-T5) and Suisei (PLANET-A). To prepare for future missions, ISAS tested Earth swing by orbits with
1976-538: The ISAS, and to dramatically improve its launch capability over previous licensed models. To achieve these two goals, a staged combustion cycle was adopted for the first stage engine, the LE-7 . The combination of the liquid hydrogen two-stage combustion cycle first stage engine and solid rocket boosters was carried over to its successor, the H-IIA and H-IIB and became the basic configuration of Japan's liquid fuel launch vehicles for 30 years, from 1994 to 2024. In 2003, JAXA
2052-753: The Prime Minister's Cabinet Office through a new Space Strategy Office. JAXA uses the H-IIA (H "two" A) rocket from the former NASDA body as a medium-lift launch vehicle . JAXA has also developed a new medium-lift vehicle H3 . For smaller launch needs, JAXA uses the Epsilon rocket. For experiments in the upper atmosphere JAXA uses the SS-520 , S-520 , and S-310 sounding rockets . Historical, nowadays retired, JAXA orbital rockets are as follows: Mu rocket family ( M-V ) and H-IIB . Japan launched its first satellite, Ohsumi , in 1970, using ISAS' L-4S rocket. Prior to
2128-467: The Tanegashima Space Center, after being delayed because of weather from its initial 18 May scheduled target. Akatsuki was planned to initiate orbit insertion operations by igniting the orbital maneuvering engine at 23:49:00 on 6 December 2010 UTC . The burn was supposed to continue for twelve minutes, to an initial Venus orbit with an apoapsis altitude of 80,000 km (50,000 mi),
2204-528: The UV spectrum. A significant result in 2018 is the appearance of thick clouds of small particles near the transition between upper and middle clouds, what was described as a "new and puzzling morphology of the complex cloud cover." By 2017, the science team published 3D maps on the Venus atmosphere structure. The physical quantities retrieved include the pressure, the temperature, the H 2 SO 4 vapor density, and
2280-621: The conception phase, ISAS scientists will see their instruments reaching Jupiter on the ESA-led JUICE (Jupiter Icy Moon Explorer) mission. JUICE is a reformulation of the ESA Ganymede orbiter from the Laplace project. JAXA's contribution includes providing components of the RPWI (Radio & Plasma Wave Investigation), PEP (Particle Environment Package), GALA (GAnymede Laser Altimeter) instruments. JAXA
2356-548: The craft's instruments recorded a "bow-shape feature in the atmosphere stretching 6,000 miles, almost pole to pole — a sideways smile". Scientists on the project termed the feature a " gravity wave " in the planet's winds above the Aphrodite Terra region of rift valleys and mountains reaching heights of over 4,000 metres (13,000 ft). The mission is collecting data in all relevant spectral bands from ultraviolet (280 nm) to mid-infrared wavelengths (10 μm). Images from
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2432-488: The direction of the atmospheric super-rotation) and lie in the orbital plane of Venus. The method and orbit were announced by JAXA in February 2015, with an orbit insertion date of 7 December 2015. The probe reached its most distant point from Venus on 3 October 2013 and had been approaching the planet since then. After performing the last of a series of four trajectory correction maneuvers between 17 July and 11 September 2015,
2508-523: The field of communication satellite technology. However, since the satellite market of Japan is completely open, the first time a Japanese company won a contract for a civilian communication satellite was in 2005. Another prime focus of the NASDA body is Earth climate observation. NASDA also trained the Japanese astronauts who flew with the US Space Shuttles . The Basic Space Law was passed in 2008, and
2584-463: The first Japanese satellite orbiting Venus. By using five different cameras working at several wavelengths, Akatsuki is studying the stratification of the atmosphere, atmospheric dynamics, and cloud physics. Astronomers working on the mission reported detecting a possible gravity wave (not to be confused with gravitational waves ) in Venus' atmosphere in December 2015. JAXA lost contact with
2660-458: The former ISAS's Mu rockets. Instead a H-2A from Tanegashima could launch it. As H-2A is more powerful, SOLAR-C could either be heavier or be stationed at L 1 ( Lagrange point 1). In 1997, Japan launched the HALCA (MUSES-B) mission, the world's first spacecraft dedicated to conduct space VLBI observations of pulsars, among others. To do so, ISAS set up a ground network around the world through international cooperation. The observation part of
2736-597: The high-gain antenna is not facing Earth. The scientific payload consists of six instruments. The five imaging cameras are exploring Venus in wavelengths from ultraviolet to the mid-infrared: A public relations campaign was held between October 2009 and January 2010 by the Planetary Society and JAXA , to allow individuals to send their name and a message aboard Akatsuki . Names and messages were printed in fine letters on an aluminium plate and placed aboard Akatsuki . 260,214 people submitted names and messages for
2812-439: The intended article. Retrieved from " https://en.wikipedia.org/w/index.php?title=Akatsuki&oldid=1228219394 " Category : Disambiguation pages Hidden categories: Articles containing Japanese-language text Short description is different from Wikidata All article disambiguation pages All disambiguation pages Akatsuki (spacecraft) Akatsuki ( あかつき, 暁 , "Dawn") , also known as
2888-588: The ionospheric electron density and their variations. By the year 2019, the first results about the morphology, temporal changes and the winds at the middle clouds of Venus were published and merited the cover in Geophysical Research Letters , reporting unexpectedly high contrasts that might indicate the presence of absorbers like water. To image lightning, the orbiter has sight of the dark side of Venus for about 30 minutes every 10 days. As of July 2019, it has accumulated 16.8 hours of observations of
2964-777: The jurisdictional authority of JAXA moved from MEXT to the Strategic Headquarters for Space Development (SHSD) in the Cabinet , led by the Prime Minister . In 2016, the National Space Policy Secretariat (NSPS) was set up by the Cabinet. JAXA was awarded the Space Foundation 's John L. "Jack" Swigert Jr., Award for Space Exploration in 2008. Planning interplanetary research missions can take many years. Due to
3040-434: The lag time between these interplanetary events and mission planning time, opportunities to gain new knowledge about the cosmos might be lost. To prevent this, JAXA began commencing smaller and faster missions from 2010 onward. In 2012, new legislation extended JAXA's remit from peaceful purposes only to include some military space development, such as missile early warning systems. Political control of JAXA passed from MEXT to
3116-498: The lander will wake up after a few days when sunlight should hit the solar panels. Two rovers, LEV 1 and 2, deployed during hovering just before final landing are working as expected with LEV-1 communicating independently to the ground stations. LEV-1 conducted seven hops over 107 minutes on the lunar surface. Images taken by LEV-2 show that it landed in the wrong attitude with loss of an engine nozzle during descent and even possible sustained damage to lander's Earth bound antenna which
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3192-416: The low-gain antenna, it took a while to determine the state of the probe. JAXA stated on 8 December that the probe's orbital insertion maneuver had failed. At a press conference on 10 December, officials reported that Akatsuki ' s engines fired for less than three minutes, far less than what was required to enter into Venus orbit. Further research found that the likely reason for the engine malfunction
3268-508: The lunar surface on 10 June 2009 at 18:25 UTC. JAXA launched its first lunar surface mission SLIM (Smart Lander for Investigating Moon) in 2023. It successfully soft landed on 19 January 2024 at 15:20 UTC, making Japan the 5th country to do so. The main goal of SLIM was to improve the accuracy of spacecraft landing on the Moon and to land a spacecraft within 100 meters of its target, which no spacecraft had achieved before. SLIM landed 55 meters from
3344-413: The merger of three previously independent organizations, JAXA was formed on 1 October 2003. JAXA is responsible for research, technology development and launch of satellites into orbit , and is involved in many more advanced missions such as asteroid exploration and possible human exploration of the Moon . Its motto is One JAXA and its corporate slogan is Explore to Realize (formerly Reaching for
3420-521: The merger, ISAS used small Mu rocket family of solid-fueled launch vehicles, while NASDA developed larger liquid-fueled launchers. In the beginning, NASDA used licensed American models. The first model of liquid-fueled launch vehicle developed domestically in Japan was the H-II , introduced in 1994. NASDA developed the H-II with two goals in mind: to be able to launch satellites using only its own technology, such as
3496-483: The mission lasted until 2003 and the satellite was retired at the end of 2005. In FY 2006, Japan funded the ASTRO-G as the succeeding mission. ASTRO-G was canceled in 2011. One of the primary duties of the former NASDA body was the testing of new space technologies, mostly in the field of communication. The first test satellite was ETS-I, launched in 1975. However, during the 1990s, NASDA was afflicted by problems surrounding
3572-567: The mission was to collect samples from a small near-Earth asteroid named 25143 Itokawa . The craft rendezvoused with the asteroid in September 2005. It was confirmed that the spacecraft successfully landed on the asteroid in November 2005, after some initial confusion regarding the incoming data. Hayabusa returned to Earth with samples from the asteroid on 13 June 2010. Hayabusa was the world's first spacecraft to return asteroid samples to Earth and
3648-596: The mission. Around 90 aluminium plates were created for the spacecraft, including three aluminium plates in which the images of the Vocaloid Hatsune Miku and her super deformed -styled figure Hachune Miku were printed. Akatsuki left the Sagamihara Campus on 17 March 2010, and arrived at the Tanegashima Space Center 's Spacecraft Test and Assembly Building 2 on 19 March. On 4 May, Akatsuki
3724-646: The mysterious atmospheric super-rotation . On Venus, while the planet rotates at 6 kilometres per hour (3.7 mph) at the equator, the atmosphere spins around the planet at 300 kilometres per hour (190 mph). Other experiments are designed to confirm the presence of lightning and to determine whether volcanism occurs currently on Venus. The main bus is a 1.45 × 1.04 × 1.44 m (4.8 × 3.4 × 4.7 ft) box with two solar arrays , each with an area of about 1.4 m (15 sq ft). The solar arrays provide over 700 W of power while in Venus orbit. The total mass of
3800-447: The near-infrared 1-μm and 2-μm cameras have been unavailable for observations due to an electronic failure. Its long-wave infrared camera, ultraviolet imager, and lightning and airglow camera continue normal operation. By April 2018, Akatsuki finished its regular observation phase, and entered an extended operation phase. Extended operations are approved until the end of 2020, with further mission extensions to be considered based on
3876-598: The night on the lunar surface while maintaining communication capabilities. At that time it was solar noon on the Moon so the temperature of the communications equipment was extremely high, so communication was terminated after only a short period of time. JAXA is now preparing for resumed operations, once the temperature has fallen sufficiently. The feat of surviving lunar night without a Radioisotope heater unit had only been achieved by some landers in Surveyor Program . Japan's planetary missions have so far been limited to
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#17328558505123952-549: The night side, and no lightning has been detected. Japan Aerospace Exploration Agency The Japan Aerospace Exploration Agency ( JAXA ) ( 国立研究開発法人宇宙航空研究開発機構 , Kokuritsu-kenkyū-kaihatsu-hōjin Uchū Kōkū Kenkyū Kaihatsu Kikō , lit. ' National Research and Development Agency Aerospace Research and Development Organisation ' ) is the Japanese national air and space agency . Through
4028-405: The organization. New head for this group will be Hayabusa project manager Kawaguchi. Active Missions: PLANET-C , IKAROS , Hayabusa2 , BepiColombo , SLIM Under Development: MMX , DESTINY Retired: PLANET-B , SELENE , MUSES-C , LEV-1, LEV-2 Cancelled: LUNAR-A On 9 May 2003, Hayabusa (meaning Peregrine falcon ), was launched from an M-V rocket. The goal of
4104-401: The originally planned 30 hours. The budget for this mission is ¥ 14.6 billion ( US$ 174 million ) for the satellite and ¥9.8 billion (US$ 116 million) for the launch. Observations include cloud and surface imaging from an orbit around the planet with cameras operating in the infrared, visible and UV wavelengths to investigate the complex Venusian meteorology and elucidate the processes behind
4180-624: The probe in late April 2024. Akatsuki is Japan's first planetary exploration mission since the failed Mars orbiter Nozomi probe which was launched in 1998. Akatsuki was originally intended to conduct scientific research for two or more years from an elliptical orbit around Venus ranging from 300 to 80,000 km (190 to 49,710 mi) in altitude, but its alternate orbit had to be highly elliptical ranging between 1,000 and 10,000 kilometres (620 and 6,210 mi) at its nearest point and about 360,000 kilometres (220,000 mi) at its farthest. This larger orbit takes 10 days to complete instead of
4256-510: The probe into orbit around Venus. Because the RCS thrusters do not need oxidiser, the remaining 65 kilograms (143 lb) of oxidiser ( MON ) was vented overboard in October 2011 to reduce the mass of the spacecraft. Three peri-Venus orbital maneuvers were executed on 1 November, 10 and 21 November 2011 using the RCS thrusters. A total delta- v of 243.8 metres per second (800 ft/s) was imparted to
4332-406: The probe operational, pointing to reduced battery wear, since the probe was then orbiting the Sun instead of its intended Venusian orbit. Telemetry data from the original failure suggested that the throat of its main engine, the orbit maneuver engine (OME) was still largely intact, and trial jet thrusts of the probe's onboard OME were performed twice, on 7 and 14 September 2011. However, the thrust
4408-553: The probe was established on a trajectory to fly past Venus on 7 December 2015, when Akatsuki would make a maneuver to enter Venus orbit after a 20-minute burn with four thrusters that were not rated for such a hefty propulsive maneuver. Instead of taking about 30 hours to complete an orbit around Venus—as was originally planned—the new orbit targeted would place Akatsuki in a nine-day orbit after an adjustment in March 2016. After JAXA engineers measured and calculated its orbit following
4484-437: The resulting orbit had an orbital period of 203 days, shorter than Venus' orbital period of 225 days, the probe drifted around the Sun compared to Venus. JAXA developed plans to attempt another orbital insertion burn when the probe returned to Venus in December 2015. This required placing the probe into "hibernation" or safe mode to prolong its life beyond the original 4.5-year design. JAXA expressed some confidence in keeping
4560-508: The skies, exploring space ). On 1 October 2003, three organizations were merged to form the new JAXA: Japan's Institute of Space and Astronautical Science (ISAS), the National Aerospace Laboratory of Japan (NAL), and National Space Development Agency of Japan (NASDA). JAXA was formed as an Independent Administrative Institution administered by the Ministry of Education, Culture, Sports, Science and Technology (MEXT) and
4636-552: The solar sail did not deploy fully. ISAS tested a solar sail again as a sub payload of the SOLAR-B launch at 23 September 2006, but contact with the probe was lost. The IKAROS solar sail was launched in May 2010 and successfully demonstrated solar sail technology in July. This made IKAROS the world's first spacecraft to successfully demonstrate solar sail technology in interplanetary space. The goal
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#17328558505124712-425: The spacecraft at launch was 517.6 kg (1,141 lb). The mass of the science payload is 34 kg (75 lb). Propulsion is provided by a 500- newton (110 lb f ) bi-propellant, hydrazine - dinitrogen tetroxide orbital maneuvering engine and twelve mono-propellant hydrazine reaction control thrusters, eight with 23 N (5.2 lb f ) of thrust and four with 3 N (0.67 lb f ). It
4788-522: The spacecraft's condition at that time. Akatsuki has enough fuel to continue operating for at least 2 more years as of November 2019. As of March 2024 , operation was planned to continue through FY 2028. In April 2024, degraded precision of attitude control resulted in failure of communication. JAXA declared the spacecraft's loss of contact with Earth on May 29, 2024. Three hours after insertion in December 2015 and in "a few glimmers in April and May" 2016
4864-475: The spacecraft. Because the RCS thrusters' specific impulse is low compared to the specific impulse of the OME, the previously planned insertion into low Venusian orbit became impossible. Instead, the new plan was to place the probe in a highly elliptical orbit with an apoapsis of a hundred thousand kilometers and a periapsis of a few thousand kilometers from Venus. Engineers planned for the alternate orbit to be prograde (in
4940-401: The target landing site, and JAXA announced that it was the world's first successful "pinpoint landing. Although it landed successfully, it landed with the solar panels oriented westwards, facing away from the Sun at the start of lunar day , thereby failing to generate enough power. The lander operated on internal battery power, which was fully drained that day. The mission's operators hope that
5016-483: The time. In November 2003, JAXA's first launch after its inauguration, H-IIA No. 6, failed, but all other H-IIA launches were successful, and as of February 2024, the H-IIA had successfully launched 47 of its 48 launches. JAXA plans to end H-IIA operations with H-IIA Flight No. 50 and retire it by March 2025. JAXA operated the H-IIB , an upgraded version of the H-IIA, from September 2009 to May 2020 and successfully launched
5092-489: The world's first spacecraft to make a round trip to a celestial body farther from Earth than the Moon. Hayabusa2 was launched in 2014 and returned samples from asteroid 162173 Ryugu to Earth in 2020. After Hiten in 1990, JAXA planned a lunar penetrator mission called LUNAR-A but after delays due to technical problems, the project was terminated in January 2007. The seismometer penetrator design for LUNAR-A may be reused in
5168-541: The year 2000 the launch of ISAS's X-ray observation satellite, ASTRO-E failed (as it failed at launch it never received a proper name). Then on 10 July 2005, JAXA was finally able to launch a new X-ray astronomy mission named Suzaku (ASTRO-EII). This launch was important for JAXA, because in the five years since the launch failure of the original ASTRO-E satellite, Japan was without an x-ray telescope . Three instruments were included in this satellite: an X-ray spectrometer (XRS), an X-ray imaging spectrometer (XIS), and
5244-472: Was achieved with solar observation and research of the magnetosphere , among other areas. NASDA, which was founded on 1 October 1969, had developed rockets , satellites, and also built the Japanese Experiment Module . The old NASDA headquarters were located at the current site of the Tanegashima Space Center , on Tanegashima Island , 115 kilometers south of Kyūshū . NASDA was mostly active in
5320-462: Was encapsulated inside the large payload fairing of the H-IIA rocket that launched the spacecraft, along with the IKAROS solar sail , on a 6-month journey to Venus. On 9 May, the payload fairing was transported to the Tanegashima Space Center's Vehicle Assembly Building, where the fairing was mated to the H-IIA launch vehicle itself. The spacecraft was launched on 20 May 2010 at 21:58:22 ( UTC ) from
5396-530: Was formed by merging Japan's three space agencies to streamline Japan's space program, and JAXA took over operations of the H-IIA liquid-fueled launch vehicle, the M-V solid-fuel launch vehicle, and several observation rockets from each agency. The H-IIA is a launch vehicle that improved reliability while reducing costs by making significant improvements to the H-II, and the M-V was the world's largest solid-fuel launch vehicle at
5472-521: Was launched as the successor to Suzaku, which completed its mission a year before. Japan's solar astronomy started in the early 1980s with the launch of the Hinotori (ASTRO-A) X-ray mission. The Hinode (SOLAR-B) spacecraft, the follow-on to the joint Japan/US/UK Yohkoh (SOLAR-A) spacecraft, was launched on 23 September 2006 by JAXA. A SOLAR-C can be expected sometime after 2020. However no details are worked out yet other than it will not be launched with
5548-424: Was launched by a H-2A launch vehicle. On 7 December 2010, Akatsuki was unable to complete its Venus orbit insertion maneuver. Akatsuki finally entered Venus orbit on 7 December 2015, making it the first Japanese spacecraft to orbit another planet, sixteen years after the originally planned orbital insertion of Nozomi. One of Akatsuki's main goal is to uncover the mechanism behind Venus atmosphere's super-rotation ,
5624-478: Was only about 40 newtons (9.0 lb f ), which was 10% of expectations. Following these tests, it was determined that insufficient specific impulse would be available for orbital maneuvering by the OME. It was concluded that the remaining combustion chamber throat was completely destroyed by transient ignition of the engine. As a result, the selected strategy was to use four hydrazine attitude control thrusters, also called reaction control system (RCS), to drive
5700-402: Was put into sleep mode due to the approaching harsh lunar night where temperatures reach −120 °C (−184 °F). SLIM was expected to operate only for one lunar daylight period, which lasts for 14 Earth days, and the on-board electronics were not designed to withstand the nighttime temperatures on the Moon. On 25 February 2024, JAXA sent wake-up calls and found SLIM had successfully survived
5776-411: Was salt deposits jamming the valve between the helium pressurization tank and the fuel tank. As a result, engine combustion became oxidizer-rich, with resulting high combustion temperatures damaging the combustion chamber throat and nozzle. A similar vapor leakage problem destroyed NASA 's Mars Observer probe in 1993. As a result, the probe was in a heliocentric orbit, rather than Venus orbit. Since
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