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{{short description|Japanese orbiter mission Venus (2010–2024)}}
{{short description|Japanese orbiter mission to Venus (2010–2024)}}
{{Other uses|Akatsuki (disambiguation){{!}}Akatsuki}}
{{Other uses|Akatsuki (disambiguation){{!}}Akatsuki}}
{{DISPLAYTITLE:''Akatsuki'' (spacecraft)}}
{{DISPLAYTITLE:''Akatsuki'' (spacecraft)}}
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{{Infobox spaceflight
{{Infobox spaceflight
| name = ''Akatsuki''
| name = ''Akatsuki''
| names_list = Venus Climate Orbiter (VCO)<br>PLANET-C
| image = Akatsuki-1.jpg
| image = Akatsuki-1.jpg
| image_size = 300px
| image_caption = A model of the spacecraft ''Akatsuki''
| image_caption = A model of the spacecraft ''Akatsuki''


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| COSPAR_ID = 2010-020D
| COSPAR_ID = 2010-020D
| SATCAT = 36576
| SATCAT = 36576
| mission_duration = ~2 years (science phase)<br> elapsed: {{time interval|20 May 2010}}
| mission_duration = {{time interval|20 May 2010|Apr 2024|sep=,}}


| spacecraft_type =
| manufacturer = [[NEC|NEC Space Technologies]]
| manufacturer = [[NEC|NEC Space Technologies]]
| dry_mass = {{convert|320|kg|lb|abbr=on}}
| dry_mass = {{cvt|320|kg|lb}}
| launch_mass = {{convert|517.6|kg|abbr=on}}<ref name=Takeshi2011/>
| launch_mass = {{cvt|517.6|kg|lb}}<ref name=Takeshi2011/>
| dimensions = {{convert|1.04|x|1.45|x|1.44|m|ft|abbr=on}}
| dimensions = {{cvt|1.04|xx|1.45|xx|1.44|m|ft}}
| power = >700&nbsp;watts at 0.7 [[Astronomical unit|AU]]<ref name=Takeshi2011/>
| power = >700&nbsp;watts at 0.7 [[Astronomical unit|AU]]<ref name=Takeshi2011/>


| launch_date = {{start-date|21 May 2010, 21:58:22|timezone=yes}}&nbsp;UTC<ref name=spaceflightnow>{{cite news | author=Stephen Clark | title=H-2A Launch Report – Mission Status Center | url=http://www.spaceflightnow.com/h2a/akatsuki/status.html | work=Spaceflight Now | date=20 May 2010| access-date=20 May 2010| archive-url= https://web.archive.org/web/20100520013452/http://spaceflightnow.com/h2a/akatsuki/status.html| archive-date= 20 May 2010 | url-status= live}}</ref>
| launch_date = {{start date text|21 May 2010, 21:58:22|timezone=yes}}&nbsp;UTC<ref name=spaceflightnow>{{cite news | author=Stephen Clark | title=H-2A Launch Report – Mission Status Center | url=http://www.spaceflightnow.com/h2a/akatsuki/status.html | work=Spaceflight Now | date=20 May 2010| access-date=20 May 2010| archive-url= https://web.archive.org/web/20100520013452/http://spaceflightnow.com/h2a/akatsuki/status.html| archive-date= 20 May 2010 | url-status= live}}</ref>
| launch_rocket = [[H-IIA|H-IIA 202]]
| launch_rocket = [[H-IIA|H-IIA 202]]
| launch_site = [[Tanegashima Space Center|Tanegashima]] [[Yoshinobu Launch Complex|YLP-1]]
| launch_site = [[Tanegashima Space Center|Tanegashima]] [[Yoshinobu Launch Complex|YLP-1]]
| launch_contractor =
| launch_contractor =


| last_contact = 29 May 2024
| declared = 29 May 2024
| decay_date =
| last_contact = April 2024


| orbit_epoch =
| orbit_reference = [[cytherocentric orbit|Cytherocentric]]
| orbit_reference = [[cytherocentric orbit|Cytherocentric]]
| orbit_periapsis = {{convert|1,000-10,000|km|mi|sp=us}} changing periodically<ref name=jaxapdf/>
| orbit_periapsis = {{cvt|1,000-10,000|km|mi}}<ref name=jaxapdf/>
| orbit_apoapsis = {{convert|370,000|km|mi|sp=us}}<ref name=jaxapdf/>
| orbit_apoapsis = {{cvt|370,000|km|mi}}<ref name=jaxapdf/>
| orbit_inclination = 3.0°
| orbit_inclination = 3.0°
| orbit_period = 10.8 days<ref name="insertion TJT"/>
| orbit_period = 10.8 days<ref name="insertion TJT"/>
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|orbits =
|orbits =
}}
}}

| programme = '''''PLANET''''' series
| previous_mission = [[Nozomi (spacecraft)|Nozomi]]
| next_mission =
}}
}}
{{nihongo|'''''Akatsuki'''''|あかつき, 暁|| "Dawn"}}, also known as the '''Venus Climate Orbiter''' ('''VCO''') and '''Planet-C''', is a [[Japan Aerospace Exploration Agency]] (JAXA) [[space probe]] tasked with studying the [[atmosphere of Venus]]. It was launched aboard an [[H-IIA|H-IIA 202 rocket]] on 20 May 2010,<ref>{{cite web |author=Chris Bergin |title=AXA H-IIA carrying Akatsuki and IKAROS launches at second attempt |url=http://www.nasaspaceflight.com/2010/05/axa-launch-h-iia-carrying-akatsuki-ikaros/ |work=NASASpaceFlight |date=20 May 2010 |access-date=19 November 2010}}</ref> but failed to enter orbit around Venus on 6 December 2010. After the craft [[heliocentric orbit|orbited the Sun]] for five years, engineers successfully placed it into an alternative Venusian [[elliptic orbit]] on 7 December 2015 by firing its [[Spacecraft attitude control|attitude control]] thrusters for 20 minutes and made it the first Japanese satellite orbiting Venus.<ref name="Akatsuki-Successful-Orbit-Gizmag"/><ref name="Akatsuki-Sucessful-Orbit-SpaceFlightNow"/><ref>{{cite news |last1=Limaye |first1=Sanjay |title=Live from Sagamihara: Akatsuki Orbit Insertion – Second Try |url=http://www.planetary.org/blogs/guest-blogs/2015/12060740-live-from-sagamihara.html |access-date=7 December 2015}}</ref><ref>{{cite web |url=http://www.popularmechanics.com/space/a17432/japan-venus-probe/ |title=Japan's Long Lost Venus Probe May Boom Back to Life |first=John |last=Wenz |work=[[Popular Mechanics]] |date=21 September 2015 |access-date=14 October 2015}}</ref>
{{nihongo|'''''Akatsuki'''''|あかつき, 暁|| "Dawn"}}, also known as 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|H-IIA 202 rocket]] on 20 May 2010,<ref>{{cite web |author=Chris Bergin |title=AXA H-IIA carrying Akatsuki and IKAROS launches at second attempt |url=http://www.nasaspaceflight.com/2010/05/axa-launch-h-iia-carrying-akatsuki-ikaros/ |work=NASASpaceFlight |date=20 May 2010 |access-date=19 November 2010}}</ref> but failed to enter orbit around Venus on 6 December 2010. After the craft [[heliocentric orbit|orbited the Sun]] for five years, engineers successfully placed it into an alternative Venusian [[elliptic orbit]] on 7 December 2015 by firing its [[Spacecraft attitude control|attitude control]] thrusters for 20 minutes and made it the first Japanese satellite orbiting Venus.<ref name="Akatsuki-Successful-Orbit-Gizmag"/><ref name="Akatsuki-Sucessful-Orbit-SpaceFlightNow"/><ref>{{cite news |last1=Limaye |first1=Sanjay |title=Live from Sagamihara: Akatsuki Orbit Insertion – Second Try |url=http://www.planetary.org/blogs/guest-blogs/2015/12060740-live-from-sagamihara.html |access-date=7 December 2015}}</ref><ref>{{cite web |url=http://www.popularmechanics.com/space/a17432/japan-venus-probe/ |title=Japan's Long Lost Venus Probe May Boom Back to Life |first=John |last=Wenz |work=[[Popular Mechanics]] |date=21 September 2015 |access-date=14 October 2015}}</ref>


By using five different cameras working at several wavelengths,'' Akatsuki'' is studying the stratification of the atmosphere, atmospheric dynamics, and cloud physics.<ref name="Overview 2011">{{cite journal |title=Overview of Venus orbiter, Akatsuki |journal=Earth, Planets and Space |date=May 2011 |last1=Nakamura |first1=N. |display-authors=etal |volume=63 |issue=5 |pages=443–457 |issn=1880-5981 |doi=10.5047/eps.2011.02.009 |bibcode=2011EP&S...63..443N |doi-access=free }}<!--|access-date=7 December 2015 --></ref><ref name="Akatsuki Exploring the Venusian Atmosphere">{{cite web |title=Exploring the Venusian Atmosphere – AKATSUKI/PLANET-C |url=http://global.jaxa.jp/countdown/f17/special/movie_e.html |website=Akatsuki Special Site |access-date=5 December 2015}}</ref> Astronomers working on the mission reported detecting a possible [[gravity wave]] (not to be confused with [[gravitational waves]]) in Venus' atmosphere in December 2015.<ref name="NYT-20170116">{{cite news |last=Chang |first=Kenneth |title=Venus Smiled, With a Mysterious Wave Across Its Atmosphere |url=https://www.nytimes.com/2017/01/16/science/venus-wave-akatsuki.html |date=16 January 2017 |work=[[The New York Times]] |access-date=17 January 2017 }} Including link to Tetsuya Fukuhara ''et al.'', [http://www.nature.com/ngeo/journal/vaop/ncurrent/full/ngeo2873.html "Large stationary gravity wave in the atmosphere of Venus" (preview/subscription)], ''[[Nature Geoscience]]'' via NYTimes link, 16 January 2017.</ref>
By using five different cameras working at several wavelengths,'' Akatsuki'' studied the stratification of the atmosphere, atmospheric dynamics, and cloud physics.<ref name=Nakamura_2011/><ref name="Akatsuki Exploring the Venusian Atmosphere">{{cite web |title=Exploring the Venusian Atmosphere – AKATSUKI/PLANET-C |url=http://global.jaxa.jp/countdown/f17/special/movie_e.html |website=Akatsuki Special Site |access-date=5 December 2015}}</ref> Astronomers working on the mission reported detecting a possible [[gravity wave]] (not to be confused with [[gravitational waves]]) in Venus' atmosphere in December 2015.{{r|NYT-20170116|Fukuhara_2017}}


JAXA lost contact with the probe in late April 2024.<ref>{{cite news|last=Jones|first=Andrew|title=Japan loses contact with Akatsuki, humanity's only active Venus probe|url=https://www.space.com/jaxa-loses-contact-akatsuki-venus-probe|website=space.com|date=31 May 2024|accessdate=4 October 2024}}</ref>
JAXA lost contact with the probe on May 29, 2024.


==Mission==
==Mission==
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===Spacecraft design===
===Spacecraft design===
[[File:Akatsuki.jpg|thumb|Configuration of Akatsuki spacecraft (left) and a photograph of the spacecraft with the solar array paddles being folded (right).<ref name="Overview 2011"/>]]
[[File:Akatsuki.jpg|thumb|Configuration of Akatsuki spacecraft (left) and a photograph of the spacecraft with the solar array paddles being folded (right).<ref name=Nakamura_2011/>]]
[[File:Akatsuki observations.jpg|thumb|Schematic of the three-dimensional observation by Akatsuki.<ref name="Overview 2011"/>]]
[[File:Akatsuki observations.jpg|thumb|Schematic of the three-dimensional observation by Akatsuki.<ref name=Nakamura_2011/>]]
The main [[Satellite bus|bus]] is a {{convert|1.45|xx|1.04|xx|1.44|m|ft|abbr=on}} box with two [[Solar panels on spacecraft|solar arrays]], each with an area of about {{convert|1.4|m2|abbr=on}}. The solar arrays provide over 700&nbsp;W of power while in Venus orbit. The total mass of the spacecraft at launch was {{convert|517.6|kg|abbr=on}}.<ref name=Takeshi2011>{{cite journal| last1=Takeshi| first1=Oshima| last2=Tokuhito| first2=Sasaki |title=Development of the Venus Climate Orbiter PLANET-C (AKATSUKI) |journal=NEC Technical Journal| volume=6| issue=1| pages=47–51| url=https://www.nec.com/en/global/techrep/journal/g11/n01/pdf/110110.pdf}}</ref> The mass of the science payload is {{convert|34|kg|abbr=on}}.<ref name=VKO>{{cite web| url=http://www.stp.isas.jaxa.jp/venus/E_plan.html| title=Mission overview| access-date=3 December 2011| publisher=PLANET-C Team/JAXA}}</ref>
The main [[Satellite bus|bus]] is a {{convert|1.45|xx|1.04|xx|1.44|m|ft|abbr=on}} box with two [[Solar panels on spacecraft|solar arrays]], each with an area of about {{convert|1.4|m2|abbr=on}}. The solar arrays provide over 700&nbsp;W of power while in Venus orbit. The total mass of the spacecraft at launch was {{convert|517.6|kg|abbr=on}}.<ref name=Takeshi2011>{{cite journal| last1=Takeshi| first1=Oshima| last2=Tokuhito| first2=Sasaki |title=Development of the Venus Climate Orbiter PLANET-C (AKATSUKI) |journal=NEC Technical Journal| volume=6| issue=1| pages=47–51| url=https://www.nec.com/en/global/techrep/journal/g11/n01/pdf/110110.pdf}}</ref> The mass of the science payload is {{convert|34|kg|abbr=on}}.<ref name=VKO>{{cite web| url=http://www.stp.isas.jaxa.jp/venus/E_plan.html| title=Mission overview| access-date=3 December 2011| publisher=PLANET-C Team/JAXA}}</ref>


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== Public relations ==
== Public relations ==
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''.<ref name=messages>{{cite web | title=Messages From Earth: Send your Message to Venus on Akatsuki | url=http://www.planetary.org/special/fromearth/akatsuki | publisher=The Planetary Society | date=2010 | access-date=2 April 2010 | archive-url=https://web.archive.org/web/20100407062824/http://www.planetary.org/special/fromearth/akatsuki | archive-date=7 April 2010 | url-status=dead | df=dmy-all }}</ref><ref>{{cite web|url=http://www.jaxa.jp/event/akatsuki/index_e.html|title=We will deliver your message to the bright star Venus – Akatsuki Message Campaign|publisher=JAXA|access-date=19 November 2010|archive-date=25 November 2010|archive-url=https://web.archive.org/web/20101125183251/http://www.jaxa.jp/event/akatsuki/index_e.html|url-status=dead}}</ref> Names and messages were printed in fine letters on an aluminium plate and placed aboard ''Akatsuki''.<ref name=messages/> 260,214 people submitted names and messages for the mission.<ref>{{cite web | title=AKATSUKI Message Campaign | url=http://www.jaxa.jp/projects/sat/planet_c/topics_e.html | publisher=JAXA | date=2010 | access-date=2 April 2010 | archive-date=5 October 2013 | archive-url=https://web.archive.org/web/20131005015626/http://www.jaxa.jp/projects/sat/planet_c/topics_e.html | url-status=dead }}</ref> Around 90 aluminium plates were created for the spacecraft,<ref>{{cite web|url=http://www.oita-press.co.jp/localNews/2010_127405922506.html|script-title=ja:金星へ届け! 県民が寄せ書き|trans-title=Hoping that It Will Reach Venus! Residents of The Prefecture Write Something Together|language=ja|work=Oita Godo Shimbun|date=17 May 2010|access-date=20 July 2010|url-status=dead|archive-url=https://web.archive.org/web/20100520030452/http://www.oita-press.co.jp/localNews/2010_127405922506.html|archive-date=20 May 2010|df=dmy-all}}</ref> including three aluminium plates in which the images of the [[Vocaloid]] [[Hatsune Miku]] and her [[super deformed]]-styled figure Hachune Miku were printed.<ref>{{cite web|url=http://journal.mycom.co.jp/articles/2010/03/12/planet-c_ikaros/index.html|title=打ち上げを目前に控えた「あかつき」と「IKAROS」の機体が公開|trans-title=The Airframes of "Akatsuki" And "IKAROS" just before Those Launch Are Opened|language=ja|work=Mycom Journal|publisher=Mainichi Communications|date=12 March 2010|access-date=20 July 2010|url-status=dead|archive-url=https://web.archive.org/web/20100314074209/http://journal.mycom.co.jp/articles/2010/03/12/planet-c_ikaros/index.html|archive-date=14 March 2010|df=dmy-all}}</ref>
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''.{{r|tps2|jaxa-20100110}} Names and messages were printed in fine letters on an aluminium plate and placed aboard ''Akatsuki''.<ref name=tps2/> 260,214 people submitted names and messages for the mission.<ref name=jaxa-20100210/> Around 90 aluminium plates were created for the spacecraft,<ref name=oita-press1/> including three aluminium plates in which the images of the [[Vocaloid]] [[Hatsune Miku]] and her [[super deformed]]-styled figure Hachune Miku were printed.<ref name=mycom1/>


==Operations==
==Operations==
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===Orbit insertion failure===
===Orbit insertion failure===
[[File:Akatsuki original orbit.jpg|thumb|Movement of the spacecraft orbit and Venus in a Sun-Earth line fixed rotating coordinate in the original plan. Numerals in the figure indicate days after VOI.<ref name="Overview 2011"/>]]
[[File:Akatsuki original orbit.jpg|thumb|Movement of the spacecraft orbit and Venus in a Sun-Earth line fixed rotating coordinate in the original plan. Numerals in the figure indicate days after VOI.<ref name=Nakamura_2011/>]]
''Akatsuki'' was planned to initiate orbit insertion operations by igniting the orbital maneuvering engine at 23:49:00 on 6 December 2010 [[UTC]].<ref name=planet_c_index/> The burn was supposed to continue for twelve minutes, to an initial Venus orbit with an apoapsis altitude of {{convert|80000|km|mi|abbr=on}}, a periapsis altitude of {{convert|300|km|abbr=on}}, and a 30 h [[orbital period]].<ref>{{cite web|url=https://global.jaxa.jp/countdown/f17/overview/akatsuki_e.html|title=Akatsuki Mission overview|language=en|access-date=23 January 2022}}</ref>
''Akatsuki'' was planned to initiate orbit insertion operations by igniting the orbital maneuvering engine at 23:49:00 on 6 December 2010 [[UTC]].<ref name=planet_c_index/> The burn was supposed to continue for twelve minutes, to an initial Venus orbit with an apoapsis altitude of {{cvt|80000|km|mi}}, a periapsis altitude of {{cvt|300|km|mi}}, and a 30 h [[orbital period]].<ref name=akatsuki.overview/>


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.<ref>{{cite web |url=http://www.jaxa.jp/countdown/f17/img/topics_20101207-3_j.pdf |script-title=ja:金星探査機「あかつき」の状況について |trans-title=About the State of Venus Probe Akatsuki |language=ja |date=7 December 2010 |access-date=7 December 2010}}</ref> Due to the low communication speed through the low-gain antenna, it took a while to determine the state of the probe.<ref>JAXA's press briefing, 22:00, 7 December 2010 JST</ref> JAXA stated on 8 December that the probe's orbital insertion maneuver had failed.<ref name="ABC">{{cite web | title=Japan's Venus Probe Fails to Enter Orbit | url=https://abcnews.go.com/Technology/wireStory?id=12339589 | work=[[ABC News (United States)|ABC News]] | access-date=8 December 2010}}</ref><ref name="planetary">{{cite web | title=Akatsuki Mission statement | url=http://planetary.org/about/press/releases/2010/1207_Akatsuki_Mission_Statement.html | publisher=[[The Planetary Society]] | access-date=8 December 2010 | url-status=dead | archive-url=https://web.archive.org/web/20120314034926/http://planetary.org/about/press/releases/2010/1207_Akatsuki_Mission_Statement.html | archive-date=14 March 2012 | df=dmy-all }}</ref> 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.<ref>{{cite journal|title=Venus miss is a setback for Japanese programme|author=David Cyranoski|journal=Nature|volume=468|issue=7326|pages=882|date=14 December 2010|doi=10.1038/468882a|pmid=21164456|bibcode=2010Natur.468..882C|doi-access=free}}</ref> Further research found that the likely reason for the engine malfunction 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 the [[NASA]] [[Mars Observer#Encounter with Mars|Mars Observer]] probe in 1993.<ref name=Nakamura2014/>
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.<ref name="jaxa-20101207"/> Due to the low communication speed through the low-gain antenna, it took a while to determine the state of the probe.<ref>JAXA's press briefing, 22:00, 7 December 2010 JST</ref> JAXA stated on 8 December that the probe's orbital insertion maneuver had failed.{{r|abc1|tps3}} 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.<ref name=Cyranoski_2010/> Further research found that the likely reason for the engine malfunction 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#Encounter with Mars|''Mars Observer'']] probe in 1993.<ref name=Nakamura_2014/>


As a result, the probe was in a heliocentric orbit, rather than Venus orbit. Since the resulting orbit had an orbital period of 203 days,<ref>http://ccar.colorado.edu/ASEN5050/projects/projects_2016/Branham_Breana/voi.html {{Webarchive|url=https://web.archive.org/web/20171001214043/http://ccar.colorado.edu/ASEN5050/projects/projects_2016/Branham_Breana/voi.html |date=1 October 2017 }} (retrieved 13 June 2017)</ref> shorter than Venus' orbital period of 225 days, the probe drifted around the Sun compared to Venus.
As a result, the probe was in a heliocentric orbit, rather than Venus orbit. Since the resulting orbit had an orbital period of 203 days,<ref name=colorado1/> shorter than Venus' orbital period of 225 days, the probe drifted around the Sun compared to Venus.


===Recovery efforts===
===Recovery efforts===
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 (spacecraft)|safe mode]] to prolong its life beyond the original 4.5-year design. JAXA expressed some confidence in keeping the probe operational, pointing to reduced battery wear, since the probe was then orbiting the Sun instead of its intended Venusian orbit.<ref>{{cite news| title=Japanese Venus Probe Misses Orbit| url=http://www.aviationweek.com/aw/generic/story_channel.jsp?channel=space&id=news/awx/2010/12/08/awx_12_08_2010_p0-275060.xml| newspaper=[[Aviation Week & Space Technology]]}}{{Dead link|date=August 2023 |bot=InternetArchiveBot |fix-attempted=yes }}</ref>
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 (spacecraft)|safe mode]] to prolong its life beyond the original 4.5-year design. JAXA expressed some confidence in keeping the probe operational, pointing to reduced battery wear, since the probe was then orbiting the Sun instead of its intended Venusian orbit.<ref name=aviation1/>


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.<ref name=planet_c_index/> However, the thrust was only about {{convert|40|N}}, 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 [[Spacecraft attitude control|attitude control]] thrusters, also called [[reaction control system]] (RCS), to drive the probe into orbit around Venus. Because the RCS thrusters do not need oxidiser, the remaining {{convert|65|kg}} of oxidiser ([[Mixed oxides of nitrogen|MON]]) was vented overboard in October 2011 to reduce the mass of the spacecraft.<ref name=Nakamura2014>{{Cite journal | doi = 10.1016/j.actaastro.2013.07.027| title = Return to Venus of the Japanese Venus Climate Orbiter AKATSUKI| journal = Acta Astronautica| volume = 93| pages = 384–389| date = 2014| last1 = Nakamura | first1 = M. | last2 = Kawakatsu | first2 = Y. | last3 = Hirose | first3 = C. | last4 = Imamura | first4 = T. | last5 = Ishii | first5 = N. | last6 = Abe | first6 = T. | last7 = Yamazaki | first7 = A. | last8 = Yamada | first8 = M. | last9 = Ogohara | first9 = K. | last10 = Uemizu | first10 = K. | last11 = Fukuhara | first11 = T. | last12 = Ohtsuki | first12 = S. | last13 = Satoh | first13 = T. | last14 = Suzuki | first14 = M. | last15 = Ueno | first15 = M. | last16 = Nakatsuka | first16 = J. | last17 = Iwagami | first17 = N. | last18 = Taguchi | first18 = M. | last19 = Watanabe | first19 = S. | last20 = Takahashi | first20 = Y. | last21 = Hashimoto | first21 = G. L. | last22 = Yamamoto | first22 = H. |bibcode = 2014AcAau..93..384N | arxiv = 1709.09353 | s2cid = 110719337}}</ref>
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.<ref name=planet_c_index/> However, the thrust was only about {{convert|40|N}}, 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 [[Spacecraft attitude control|attitude control]] thrusters, also called [[reaction control system]] (RCS), to drive the probe into orbit around Venus. Because the RCS thrusters do not need oxidiser, the remaining {{convert|65|kg}} of oxidiser ([[Mixed oxides of nitrogen|MON]]) was vented overboard in October 2011 to reduce the mass of the spacecraft.<ref name=Nakamura_2014/>


Three peri-Venus orbital maneuvers were executed on 1 November,<ref name=planet_c>{{cite web| url=http://www.jaxa.jp/projects/sat/planet_c/index_e.html| title=AKATSUKI orbit control at perihelion| publisher=JAXA| date=1 November 2011| access-date=3 December 2011| archive-date=13 May 2012| archive-url=https://web.archive.org/web/20120513140027/http://www.jaxa.jp/projects/sat/planet_c/index_e.html| url-status=dead}}</ref> 10 and 21 November 2011 using the RCS thrusters. A total [[Delta-v|delta-''v'']] of {{convert|243.8|m/s}} was imparted to 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 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.<ref name="Feb SFN">{{cite news| title=Japanese craft to get second chance after missing Venus in 2010| url=http://spaceflightnow.com/2015/02/07/japanese-craft-to-get-second-chance-after-missing-venus-in-2010/}}</ref> The probe reached its most distant point from Venus on 3 October 2013 and had been approaching the planet since then.<ref>{{cite web| url=http://www.stp.isas.jaxa.jp/venus/images/gallery/open_campus_2013/akatsuki_journey_3_A4_2013.pdf | script-title=ja:「あかつき」の旅 (2013年特別公開向け資料)| date=26 August 2013| access-date=8 June 2014| language=ja| publisher=PLANET-C Team/JAXA}}</ref>
Three peri-Venus orbital maneuvers were executed on 1 November,<ref name=planet_c/> 10 and 21 November 2011 using the RCS thrusters. A total [[Delta-v|delta-''v'']] of {{convert|243.8|m/s}} was imparted to 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 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.<ref name=sfn-20150207/> The probe reached its most distant point from Venus on 3 October 2013 and had been approaching the planet since then.<ref name=jaxa-20130826/>


===Orbit insertion===
===Orbit insertion===
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By April 2018, ''Akatsuki'' finished its regular observation phase, and entered an extended operation phase.<ref>{{cite web |url=http://www.isas.jaxa.jp/outreach/isas_news/files/ISASnews446.pdf |script-title=ja:「あかつき」定常観測フェーズ終了 |page=4 |language=ja |periodical=ISAS News |issue=446 |date=May 2018 |issn=0285-2861}}</ref> Extended operations are approved until the end of 2020, with further mission extensions to be considered based on the spacecraft's condition at that time. ''Akatsuki'' has enough fuel to continue operating for at least 2 more years as of November 2019.<ref>{{cite web |last=Nakamura |first=Masato |url=https://fanfun.jaxa.jp/jaxatv/files/20191119_akatsuki-01.pdf |title=あかつきの現状 |trans-title=Current Status of Akatsuki |publisher=[[Institute of Space and Astronautical Science|ISAS]]/[[JAXA]] |date=19 November 2019 |access-date=26 November 2019 |language=ja}}</ref>
By April 2018, ''Akatsuki'' finished its regular observation phase, and entered an extended operation phase.<ref>{{cite web |url=http://www.isas.jaxa.jp/outreach/isas_news/files/ISASnews446.pdf |script-title=ja:「あかつき」定常観測フェーズ終了 |page=4 |language=ja |periodical=ISAS News |issue=446 |date=May 2018 |issn=0285-2861}}</ref> Extended operations are approved until the end of 2020, with further mission extensions to be considered based on the spacecraft's condition at that time. ''Akatsuki'' has enough fuel to continue operating for at least 2 more years as of November 2019.<ref>{{cite web |last=Nakamura |first=Masato |url=https://fanfun.jaxa.jp/jaxatv/files/20191119_akatsuki-01.pdf |title=あかつきの現状 |trans-title=Current Status of Akatsuki |publisher=[[Institute of Space and Astronautical Science|ISAS]]/[[JAXA]] |date=19 November 2019 |access-date=26 November 2019 |language=ja}}</ref>


{{As of|March 2024}}, operation was planned to continue through [[Fiscal year#Japan|FY]]2028.<ref name=Satoh_2024/> In April 2024, degraded precision of attitude control resulted in failure of communication.<ref name=jaxa-20240529/> JAXA declared the spacecraft's loss of contact with Earth on May 29, 2024.{{r|gizmodo1|arstech1}}
{{As of|March 2024}}, operation was planned to continue through [[Fiscal year#Japan|FY]]2028.<ref>{{cite journal |url=https://www.wakusei.jp/book/pp/2024/2024-1/74-77_p.pdf |language=ja |script-title=ja:一番星へ行こう!日本の金星探査機の挑戦 その57 〜あかつき運用を再延⻑し,金星大気⻑期変動の要因解明に挑む〜 |trans-title=Road to the first star: Venus orbiter from Japan (57) - Akatsuki challenges the mechanisms of long-term variations in Venus' atmosphere through another mission extension |last1=Satoh |first1=T. |last2=Yamazaki |first2=A. |last3=Imamura |first3=T. |last4=Ishii |first4=N. |last5=Nakamura |first5=M. |last6=Abe |first6=T. |journal=Planetary People |volume=33 |issue=1 |issn=0918-273X |publisher=The Japanese Society for Planetary Sciences |publication-date=25 March 2024}}</ref> In April 2024, degraded precision of attitude control resulted in failure of communication.<ref>{{cite web |url=https://www.isas.jaxa.jp/topics/003749.html |language=ja |script-title=ja:金星探査機「あかつき」との通信状況について |publisher=ISAS/JAXA |date=29 May 2024 |access-date=29 May 2024}}</ref>

JAXA lost contact with the probe on May 29, 2024.<ref>{{cite web |url=https://gizmodo.com/venus-probe-falls-silent-japan-akatsuki-1851511749 |title=Venus' Only Active Probe Mysteriously Falls Silent |date=31 May 2024 }}</ref><ref>{{cite web |url=https://arstechnica.com/space/2024/05/our-only-mission-at-venus-may-have-just-gone-dark/ |title=Our only mission at Venus may have just gone dark |date=29 May 2024 }}</ref>


==Science==
==Science==
Three hours after insertion in December 2015 and in "a few glimmers in April and May" 2016 the craft's instruments recorded a "bow-shape feature in the atmosphere stretching 6,000 miles, almost pole to pole — a sideways smile".<ref name='Nakamura 2018'>[https://link.springer.com/article/10.1186/s40623-018-0916-3 Special issue "Akatsuki at Venus: The First Year of Scientific Operation]. Masato Nakamura, Dmitri Titov, Kevin McGouldrick, Pierre Drossart, Jean-Loup Bertaux, Huixin Liu. ''Earth, Planets and Space''. December 2018.</ref> 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 {{convert|4,000|m}}.<ref name="NYT-20170116"/> The mission is collecting data in all relevant spectral bands from ultraviolet (280&nbsp;nm) to mid-infrared wavelengths (10 μm).<ref>{{cite journal|doi=10.1016/j.icarus.2017.01.027|title=Overview of useful spectral regions for Venus: An update to encourage observations complementary to the Akatsuki mission|journal=Icarus|volume=288|pages=235–239|year=2017|last1=Peralta|first1=J.|last2=Lee|first2=Yeon Joo|last3=McGouldrick|first3=K.|last4=Sagawa|first4=H.|last5=Sánchez-Lavega|first5=A.|last6=Imamura|first6=T.|last7=Widemann|first7=T.|last8=Nakamura|first8=M.|bibcode=2017Icar..288..235P|doi-access=free}}</ref>
Three hours after insertion in December 2015 and in "a few glimmers in April and May" 2016 the craft's instruments recorded a "bow-shape feature in the atmosphere stretching 6,000 miles, almost pole to pole — a sideways smile".<ref name=Nakamura_2018/> 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 {{convert|4,000|m}}.{{r|NYT-20170116|Fukuhara_2017}} The mission is collecting data in all relevant spectral bands from ultraviolet (280&nbsp;nm) to mid-infrared wavelengths (10 μm).<ref name=Peralta_2017/>


Images from the ''Akatsuki'' orbiter revealed something similar to [[jet stream]] winds in the low and middle cloud region, which extends from {{convert|45|to|60|km}} in altitude.<ref>{{cite news | last = Bouic | first = Damia | title = A new look at Venus with Akatsuki | newspaper = [[The Planetary Society]] [[Blog]] | publisher = [[The Planetary Society]] | date = 16 January 2018 | url = http://www.planetary.org/blogs/guest-blogs/2018/0116-a-new-look-at-venus-with-akatsuki.html | access-date = 2018-01-28 }}</ref> The wind speed maximized near the equator. In September 2017, JAXA scientists named this phenomenon 'Venusian equatorial jet'.<ref name="Update Sep 2017">{{cite web |url=http://global.jaxa.jp/projects/sat/planet_c/topics.html#topics10633 |title=Venus: Jet-setting atmosphere |work=Japan Aerospace Exploration Agency (JAXA) |date=5 September 2017 |access-date=2017-09-26 }}</ref> They also published results on equatorial winds at the cloud-top level by tracking clouds on the UV spectrum.<ref>[https://earth-planets-space.springeropen.com/articles/10.1186/s40623-017-0775-3 Mean winds at the cloud top of Venus obtained from two-wavelength UV imaging by Akatsuki]. Takeshi Horinouchi, Toru Kouyama, Yeon Joo Lee, Shin-ya Murakami, Kazunori Ogohara, Masahiro Takagi, Takeshi Imamura, Kensuke Nakajima, Javier Peralta, Atsushi Yamazaki, Manabu Yamada and Shigeto Watanabe. ''Earth, Planets and Space'' {{doi|10.1186/s40623-017-0775-3}} Published: 15 January 2018.</ref> 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."<ref name='Nakamura 2018'/> By 2017, the science team published 3D maps on the Venus atmosphere structure.<ref name='Nakamura 2018'/> The physical quantities retrieved include the pressure, the temperature, the {{chem|H|2|SO|4}} vapor density, and the ionospheric electron density and their variations.<ref name='Nakamura 2018'/> By the year 2019, the first results about the morphology, temporal changes<ref>[https://blogs.agu.org/geospace/2019/04/29/new-research-takes-deeper-look-at-venuss-clouds/ New research takes deeper look at Venus’s clouds], 29 April 2019</ref> 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.<ref>{{Cite journal|title=Morphology and Dynamics of Venus's Middle Clouds With Akatsuki/IR1|journal= [[Geophysical Research Letters]] |volume=46|issue=5|pages=2399–2407|author1=J. Peralta|author2=N. Iwagami|author3=A. Sánchez-Lavega|author4=Yeon Joo Lee|author5=R. Hueso|author6=M. Narita|author7=T. Imamura|author8=P. Miles|author9=A. Wesley|author10=E. Kardasis|author11=S. Takagi |doi=10.1029/2018GL081670|year=2019|bibcode=2019GeoRL..46.2399P|arxiv=1903.02883|s2cid=119195952}}</ref>
Images from the ''Akatsuki'' orbiter revealed something similar to [[jet stream]] winds in the low and middle cloud region, which extends from {{convert|45|to|60|km}} in altitude.<ref name=tps1/> The wind speed maximized near the equator. In September 2017, JAXA scientists named this phenomenon 'Venusian equatorial jet'.<ref name=jaxa-20170905/> They also published results on equatorial winds at the cloud-top level by tracking clouds on the UV spectrum.<ref name=Horinouchi_2018/> 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."<ref name=Nakamura_2018/> By 2017, the science team published 3D maps on the Venus atmosphere structure.<ref name=Nakamura_2018/> The physical quantities retrieved include the pressure, the temperature, the {{chem|H|2|SO|4}} vapor density, and the ionospheric electron density and their variations.<ref name=Nakamura_2018/> By the year 2019, the first results about the morphology, temporal changes<ref name=agu1/> 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.<ref name=Peralta_2019/>


To image lightning, the orbiter has sight of the dark side of Venus for about 30 minutes every 10 days.<ref name=Takahashi>[http://adsabs.harvard.edu/abs/2017EGUGA..1911381T Hunt for optical lightning flash in Venus using LAC onboard Akatsuki spacecraft]. Takahashi, Yukihiro; Sato, Mitsuteru; Imai, Masataka. 19th EGU General Assembly, EGU2017, proceedings from the conference held 23–28 April 2017 in Vienna, Austria., p.11381.</ref> As of July 2019, it has accumulated 16.8 hours of observations of the night side, and no lightning has been detected.<ref>[https://agupubs.onlinelibrary.wiley.com/doi/abs/10.1029/2019GL083311 Constraints on Venus Lightning From Akatsuki's First 3 Years in Orbit.] Ralph D. Lorenz, Masataka Imai, Yukihiro Takahashi, Mitsuteru Sato, Atsushi Yamazaki, Takao M. Sato, Takeshi Imamura, Takehiko Satoh, Masato Nakamura. ''[[Geophysical Research Letters]]''. 3 July 2019. {{doi|10.1029/2019GL083311}}</ref>
To image lightning, the orbiter has sight of the dark side of Venus for about 30 minutes every 10 days.<ref name=Takahashi_2017/> As of July 2019, it has accumulated 16.8 hours of observations of the night side, and no lightning has been detected.<ref name=Lorenz_2019/>


==Gallery==
==Gallery==
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==References==
==References==
{{Reflist}}
{{Reflist|refs=

<ref name="abc1">{{cite news
| author1= Eric Talmage
| title= Japan's Venus Probe Fails to Enter Orbit
| url= https://abcnews.go.com/Technology/wireStory?id=12339589
| website= [[ABC News (United States)|ABC News]]
| access-date= 8 December 2010
| archive-date= 13 December 2010
| archive-url= https://web.archive.org/web/20101213002848/https://abcnews.go.com/Technology/wireStory?id=12339589
| url-status= dead }}
</ref>

<ref name="agu1">{{cite web
| author1= Larry O. Hanlon
| url= https://blogs.agu.org/geospace/2019/04/29/new-research-takes-deeper-look-at-venuss-clouds/
| website= blogs.agu.org/geospace
| publisher= [[American Geophysical Union]]
| title= New research takes deeper look at Venus's clouds
| date= 29 April 2019
| access-date= 23 August 2024 }}
</ref>

<ref name="akatsuki.overview">{{cite web
| url= https://global.jaxa.jp/countdown/f17/overview/akatsuki_e.html
| title= Akatsuki Mission Overview
| publisher= [[JAXA]]
| access-date= 23 January 2022
| language= en }}
</ref>

<ref name="arstech1">{{cite web
| author1= Eric Berger
| url= https://arstechnica.com/space/2024/05/our-only-mission-at-venus-may-have-just-gone-dark/
| title= Our only mission at Venus may have just gone dark
| website= Ars Technica
| date= 29 May 2024
| access-date= 24 August 2024 }}
</ref>

<ref name="aviation1">{{cite news
| title=Japanese Venus Probe Misses Orbit
| url=http://www.aviationweek.com/aw/generic/story_channel.jsp?channel=space&id=news/awx/2010/12/08/awx_12_08_2010_p0-275060.xml
| newspaper=[[Aviation Week & Space Technology]]
}}{{Dead link|date=December 2024 |bot=InternetArchiveBot |fix-attempted=yes }}

{{Dead link
| date= August 2023
| bot= InternetArchiveBot
| fix-attempted= yes }}</ref>

<ref name="colorado1">{{cite web
| title= Akatsuki: Importance
| url= http://ccar.colorado.edu/ASEN5050/projects/projects_2016/Branham_Breana/voi.html
| publisher= [[University of Colorado]]
| access-date= 13 June 2017
| archive-date= 1 October 2017
| archive-url= https://web.archive.org/web/20171001214043/http://ccar.colorado.edu/ASEN5050/projects/projects_2016/Branham_Breana/voi.html
| url-status= dead }}
</ref>

<ref name="Cyranoski_2010">{{cite journal
| author1= David Cyranoski
| title= Venus Miss is a Setback for Japanese Programme
| journal= [[Nature (journal)|Nature]]
| volume= 468
| issue= 7326
| pages= 882
| date= 14 December 2010
| doi= 10.1038/468882a
| pmid= 21164456
| bibcode= 2010Natur.468..882C
| doi-access= free }}
</ref>

<ref name="Fukuhara_2017">{{cite journal
| author1= T. Fukuhara
| author2= M. Futaguchi
| author3= G. L. Hashimoto
| author4= T. Horinouchi
| author5= T. Imamura
| author6= N. Iwagaimi
| author7= T. Kouyama
| author8= S. Murakami
| author9= M. Nakamura
| author10= K. Ogohara
| author11= M. Sato
| author12= T. M. Sato
| author13= M. Suzuki
| author14= M. Taguchi
| author15= S. Takagi
| author16= M. Ueno
| author17= S. Watanabe
| author18= M. Yamada
| author19= A. Yamazaki
| display-authors= 5
| title= Large stationary gravity wave in the atmosphere of Venus
| journal= [[Nature (journal)|Nature]]
| volume= 10
| issue= 2
| pages= 85–88
| date= 16 January 2017
| doi= 10.1038/ngeo2873
| bibcode= 2017NatGe..10...85F }}
</ref>

<ref name="gizmodo1">{{cite web
| author1= Passant Rabie
| url= https://gizmodo.com/venus-probe-falls-silent-japan-akatsuki-1851511749
| title= Venus' Only Active Probe Mysteriously Falls Silent
| website= Gizmodo.com
| date= 31 May 2024
| access-date= 24 August 2024 }}
</ref>

<ref name="Horinouchi_2018">{{cite journal
| author1= T. Horinouchi
| author2= T. Kouyama
| author3= Y. J. Lee
| author4= S. Murakami
| author5= K. Ogohara
| author6= M. Takagi
| author7= T. Imamura
| author8= K. Nakajima
| author9= J. Peralta
| author10= A. Yamazaki
| author11= M. Yamada
| author12= S. Watanabe
| display-authors= 5
| title= Mean winds at the cloud top of Venus obtained from two-wavelength UV imaging by Akatsuki
| journal= Earth, Planets and Space
| volume= 70
| issue= 10
| date= 15 January 2018
| doi= 10.1186/s40623-017-0775-3
| doi-access= free | bibcode= 2018EP&S...70...10H
}}
</ref>

<ref name="jaxa-20100110">{{cite web
| url= http://www.jaxa.jp/event/akatsuki/index_e.html
| title= We will deliver your message to the bright star Venus – Akatsuki Message Campaign
| publisher= [[JAXA]]
| date= 10 January 2010
| access-date= 19 November 2010
| archive-date= 25 November 2010
| archive-url= https://web.archive.org/web/20101125183251/http://www.jaxa.jp/event/akatsuki/index_e.html
| url-status= dead }}
</ref>

<ref name="jaxa-20100210">{{cite web
| title= Thank you very much for participating in the AKATSUKI message campaign
| url= http://www.jaxa.jp/projects/sat/planet_c/topics_e.html
| publisher= [[JAXA]]
| date= 10 February 2010
| access-date= 2 April 2010
| archive-date= 19 August 2010
| archive-url= https://web.archive.org/web/20100819055359/http://www.jaxa.jp/projects/sat/planet_c/topics_e.html
| url-status= dead }}
</ref>

<ref name="jaxa-20101207">{{cite web
| url= http://www.jaxa.jp/countdown/f17/img/topics_20101207-3_j.pdf
| title= 金星探査機「あかつき」の状況について
| trans-title= About the State of Venus Probe Akatsuki
| publisher= [[JAXA]]
| date= 7 December 2010
| access-date= 8 December 2010
| language= ja }}
</ref>

<ref name="jaxa-20130826">{{cite press release
| url= http://www.stp.isas.jaxa.jp/venus/images/gallery/open_campus_2013/akatsuki_journey_3_A4_2013.pdf
| title= 「あかつき」の旅 (2013年特別公開向け資料)
| trans-title= “Akatsuki” Journey (Press Kit in 2013)
| publisher= [[JAXA]]
| date= 26 August 2013
| access-date= 8 June 2014
| language= ja }}</ref>

<ref name="jaxa-20170905">{{cite web
| url= https://global.jaxa.jp/projects/sat/planet_c/topics.html#topics10633
| title= Venus: Jet-setting Atmosphere
| publisher= [[JAXA]]
| date= 5 September 2017
| access-date= 26 September 2017 }}
</ref>

<ref name="jaxa-20240529">{{cite web
| url= https://www.isas.jaxa.jp/topics/003749.html
| title= 金星探査機「あかつき」との通信状況について
| trans-title= Communication status with the Venus Climate Orbiter "AKATSUKI"
| publisher= [[Institute of Space and Astronautical Science|ISAS]] / [[JAXA]]
| date= 29 May 2024
| access-date= 21 July 2024
| language= ja }}
</ref>

<ref name="Lorenz_2019">{{cite journal
| author1= R. D. Lorenz
| author2= M. Imai
| author3= Y. Takahashi
| author4= M. Sato
| author5= A. Yamazaki
| author6= T. M. Sato
| author7= T. Imamura
| author8= T. Satoh
| author9= M. Nakamura
| display-authors= 5
| title= Constraints on Venus Lightning From Akatsuki's First 3 Years in Orbit
| journal= [[Geophysical Research Letters]]
| volume= 46
| issue= 14
| pages= 7955–7961
| date= 3 July 2019
| doi= 10.1029/2019GL083311
| doi-access= free | bibcode= 2019GeoRL..46.7955L
}}
</ref>

<ref name="mycom1">{{cite web
| url= http://journal.mycom.co.jp/articles/2010/03/12/planet-c_ikaros/index.html
| title= 打ち上げを目前に控えた「あかつき」と「IKAROS」の機体が公開
| trans-title= The Airframes of "Akatsuki" And "IKAROS" just before Those Launch Are Opened
| work= Mycom Journal
| publisher= Mainichi Communications
| date= 12 March 2010
| access-date= 20 July 2010
| archive-date= 14 March 2010
| archive-url= https://web.archive.org/web/20100314074209/http://journal.mycom.co.jp/articles/2010/03/12/planet-c_ikaros/index.html
| url-status= dead
| language= ja }}
</ref>

<ref name="Nakamura_2011">{{cite journal
| author1= M. Nakamura
| author2= T. Imamura
| author3= N. Ishii
| author4= T. Abe
| author5= T. Satoh
| author6= M. Suzuki
| author7= M. Ueno
| author8= A. Yamazaki
| author9= N. Iwagami
| author10= S. Watanabe
| author11= M. Taguchi
| author12= T. Fukuhara
| author13= Y. Takahashi
| author14= M. Yamada
| author15= N. Hoshino
| author16= S. Ohtsuki
| author17= K. Uemizu
| author18= G. L. Hashimoto
| author19= M. Takagi
| author20= Y. Matsuda
| author21= K. Ogohara
| author22= N. Sato
| author23= Y. Kasaba
| author24= T. Kouyama
| author25= N. Hirata
| author26= R. Nakamura
| author27= Y. Yamamoto
| author28= N. Okada
| author29= T. Horinouchi
| author30= M. Yamamoto
| author31= Y. Hayashi
| display-authors= 5
| title= Overview of Venus orbiter, Akatsuki
| journal= Earth, Planets and Space
| date= 21 June 2011
| volume= 63
| issue= 5
| pages= 443–457
| issn= 1880-5981
| doi= 10.5047/eps.2011.02.009
| bibcode= 2011EP&S...63..443N
| doi-access= free }}
</ref>

<ref name="Nakamura_2014">{{Cite journal
| author1= M. Nakamura
| author2= Y. Kawakatsu
| author3= C. Hirose
| author4= T. Imamura
| author5= N. Ishii
| author6= T. Abe
| author7= A. Yamazaki
| author8= M. Yamada
| author9= K. Ogohara
| author10= K. Uemizu
| author11= T. Fukuhara
| author12= S. Ohtsuki
| author13= T. Satoh
| author14= M. Suzuki
| author15= M. Ueno
| author16= J. Nakatsuka
| author17= N. Iwagami
| author18= M. Taguchi
| author19= S. Watanabe
| author20= Y. Takahashi
| author21= G. L. Hashimoto
| author22= H. Yamamoto
| display-authors= 5
| title= Return to Venus of the Japanese Venus Climate Orbiter AKATSUKI
| journal= Acta Astronautica
| volume= 93
| pages= 384–389
| date= 2014
| doi= 10.1016/j.actaastro.2013.07.027
| bibcode= 2014AcAau..93..384N
| arxiv= 1709.09353
| s2cid= 110719337 }}
</ref>

<ref name="Nakamura_2018">{{cite journal
| author1= M. Nakamura
| author2= D. Titov
| author3= K. McGouldrick
| author4= P. Drossart
| author5= J. L. Bertaux
| author6= H. Liu
| title= Akatsuki at Venus: The First Year of Scientific Operation
| journal= Earth, Planets and Space
| volume= 70
| issue= 144
| date= December 2018
| doi= 10.1186/s40623-018-0916-3
| doi-access= free }}
</ref>

<ref name="NYT-20170116">{{cite news
| author1=Kenneth Chang
| title= Venus Smiled, With a Mysterious Wave Across Its Atmosphere
| url= https://www.nytimes.com/2017/01/16/science/venus-wave-akatsuki.html
| work= [[The New York Times]]
| date= 16 January 2017
| access-date= 17 January 2017
| url-access= subscription }}
</ref>

<ref name="oita-press1">{{cite web
| url= http://www.oita-press.co.jp/localNews/2010_127405922506.html
| title= 金星へ届け! 県民が寄せ書き
| trans-title= Hoping that It Will Reach Venus! Residents of The Prefecture Write Something Together
| language= ja
| work= Oita Godo Shimbun
| date= 17 May 2010
| access-date= 20 July 2010
| archive-date= 20 May 2010
| archive-url= https://web.archive.org/web/20100520030452/http://www.oita-press.co.jp/localNews/2010_127405922506.html
| url-status=dead }}
</ref>

<ref name="Peralta_2017">{{cite journal
| author1= J. Peralta
| author2= Y. J. Lee
| author3= K. McGouldrick
| author4= H. Sagawa
| author5= A. Sánchez-Lavega
| author6= T. Imamura
| author7= T. Widemann
| author8= M. Nakamura
| display-authors= 4
| title= Overview of useful spectral regions for Venus: An update to encourage observations complementary to the Akatsuki mission
| journal= [[Icarus (journal)|Icarus]]
| volume= 288
| pages= 235–239
| year= 2017
| doi= 10.1016/j.icarus.2017.01.027
| bibcode= 2017Icar..288..235P
| doi-access= free }}
</ref>

<ref name="Peralta_2019">{{cite journal
| author1= J. Peralta
| author2= N. Iwagami
| author3= A. Sánchez-Lavega
| author4= Y. J. Lee
| author5= R. Hueso
| author6= M. Narita
| author7= T. Imamura
| author8= P. Miles
| author9= A. Wesley
| author10= E. Kardasis
| author11= S. Takagi
| display-authors= 5
| title= Morphology and Dynamics of Venus's Middle Clouds With Akatsuki/IR1
| journal= [[Geophysical Research Letters]]
| volume= 46
| issue= 5
| pages= 2399–2407
| year= 2019
| doi= 10.1029/2018GL081670
| bibcode= 2019GeoRL..46.2399P
| arxiv= 1903.02883
| s2cid= 119195952 }}
</ref>

<ref name="planet_c">{{cite web
| url= http://www.jaxa.jp/projects/sat/planet_c/index_e.html
| title= AKATSUKI orbit control at perihelion
| publisher= [[JAXA]]
| date= 1 November 2011
| access-date= 3 December 2011
| archive-date= 13 May 2012
| archive-url= https://web.archive.org/web/20120513140027/http://www.jaxa.jp/projects/sat/planet_c/index_e.html
| url-status= dead }}
</ref>

<ref name="Satoh_2024">{{cite journal
| author1= T. Satoh
| author2= A. Yamazaki
| author3= T. Imamura
| author4= N. Ishii
| author5= M. Nakamura
| author6= T. Abe
| language= ja
| title= 一番星へ行こう!日本の金星探査機の挑戦 その57 〜あかつき運用を再延⻑し,金星大気⻑期変動の要因解明に挑む〜
| trans-title= Road to the first star: Venus orbiter from Japan (57) - Akatsuki challenges the mechanisms of long-term variations in Venus' atmosphere through another mission extension
| url= https://www.wakusei.jp/book/pp/2024/2024-1/74-77_p.pdf
| journal= Planetary People
| volume= 33
| issue= 1
| issn= 0918-273X
| publisher= The Japanese Society for Planetary Sciences
| date= 25 March 2024 }}
</ref>

<ref name="sfn-20150207">{{cite web
| author1= Stephen Clark
| title= Japanese craft to get second chance after missing Venus in 2010
| url= https://spaceflightnow.com/2015/02/07/japanese-craft-to-get-second-chance-after-missing-venus-in-2010/
| website= Spaceflight Now
| date= 7 February 2015
| access-date= 26 August 2024 }}
</ref>

<ref name="Takahashi_2017">{{cite conference
| author1= Y. Takahashi
| author2= M. Sato
| author3= M. Imai
| title= Hunt for Optical Lightning Flash in Venus using LAC onboard Akatsuki spacecraft
| conference= 19th EGU General Assembly
| id= EGU2017
| date= 23–28 April 2017
| location= Vienna, Austria
| page= 11381
| bibcode= 2017EGUGA..1911381T }}
</ref>

<ref name="tps1">{{cite web
| author1= Damia Bouic
| title= A new look at Venus with Akatsuki
| url= https://www.planetary.org/articles/0116-a-new-look-at-venus-with-akatsuki
| website= [[The Planetary Society]]
| date= 16 January 2018
| access-date= 28 January 2018 }}
</ref>

<ref name="tps2">{{cite web
| title= Messages From Earth: Send your Message to Venus on Akatsuki
| url= http://www.planetary.org/special/fromearth/akatsuki
| website= [[The Planetary Society]]
| date= 2010
| access-date= 2 April 2010
| archive-date= 7 April 2010
| archive-url= https://web.archive.org/web/20100407062824/http://www.planetary.org/special/fromearth/akatsuki
| url-status= dead }}
</ref>

<ref name="tps3">{{cite web
| title= Akatsuki Mission Statement: 20101207
| url= http://planetary.org/about/press/releases/2010/1207_Akatsuki_Mission_Statement.html
| website= [[The Planetary Society]]
| access-date= 8 December 2010
| archive-date= 14 March 2012
| archive-url= https://web.archive.org/web/20120314034926/http://planetary.org/about/press/releases/2010/1207_Akatsuki_Mission_Statement.html
| url-status=dead }}
</ref>

}}


== External links ==
== External links ==
Line 169: Line 651:
* [http://www.darts.isas.jaxa.jp/planet/project/akatsuki/index.html.en DARTS (ISAS JAXA) Akatsuki Science Archive]
* [http://www.darts.isas.jaxa.jp/planet/project/akatsuki/index.html.en DARTS (ISAS JAXA) Akatsuki Science Archive]
* [http://www.stp.isas.jaxa.jp/venus/top_english.html Planet-C page (Solar Terrestrial Physics Group)]
* [http://www.stp.isas.jaxa.jp/venus/top_english.html Planet-C page (Solar Terrestrial Physics Group)]
* [http://www.thespacereview.com/article/2822/1 Detailed ''Space Review'' article about ''Akatsuki'' and its recovery]
* [http://www.thespacereview.com/article/2822/1 Detailed ''Space Review'' article about ''Akatsuki'' and its recovery]
* [http://www.jaxa.jp/countdown/f17/pdf/presskit_akatsuki_e.pdf Venus Climate Orbiter ''Akatsuki''] (PDF, 1.72 Mb)
* [http://www.jaxa.jp/countdown/f17/pdf/presskit_akatsuki_e.pdf Venus Climate Orbiter ''Akatsuki''] (PDF, 1.72 Mb)
* [http://www.stp.isas.jaxa.jp/venus/paper/index.htm ''Akatsuki'' – List of scientific publications]
* [http://www.stp.isas.jaxa.jp/venus/paper/index.htm ''Akatsuki'' – List of scientific publications]

Latest revision as of 16:23, 7 December 2024

Akatsuki
A model of the spacecraft Akatsuki
NamesVenus Climate Orbiter (VCO)
PLANET-C
Mission typeVenus orbiter
OperatorJAXA
COSPAR ID2010-020D Edit this at Wikidata
SATCAT no.36576
WebsiteJAXA
JAXA Special Site
Mission duration13 years, 11 months
Spacecraft properties
ManufacturerNEC Space Technologies
Launch mass517.6 kg (1,141 lb)[1]
Dry mass320 kg (710 lb)
Dimensions1.04 × 1.45 × 1.44 m (3.4 × 4.8 × 4.7 ft)
Power>700 watts at 0.7 AU[1]
Start of mission
Launch date21 May 2010, 21:58:22 (2010-05-21UTC21:58:22Z) UTC[2]
RocketH-IIA 202
Launch siteTanegashima YLP-1
End of mission
Declared29 May 2024
Last contactApril 2024
Orbital parameters
Reference systemCytherocentric
Eccentricity0.971
Pericytherion altitude1,000–10,000 km (620–6,210 mi)[3]
Apocytherion altitude370,000 km (230,000 mi)[3]
Inclination3.0°
Period10.8 days[4]
Flyby of Venus (failed insertion)
Closest approach6 December 2010, 23:49:00 UTC
Distance550 kilometers (340 mi)
Venus orbiter
Orbital insertion7 December 2015[5][6]
PLANET series
← Nozomi

Akatsuki (あかつき, 暁, "Dawn"), also known as 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,[7] 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 the first Japanese satellite orbiting Venus.[5][6][8][9]

By using five different cameras working at several wavelengths, Akatsuki studied the stratification of the atmosphere, atmospheric dynamics, and cloud physics.[10][11] Astronomers working on the mission reported detecting a possible gravity wave (not to be confused with gravitational waves) in Venus' atmosphere in December 2015.[12][13]

JAXA lost contact with the probe in late April 2024.[14]

Mission

[edit]

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,[1] 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 the originally planned 30 hours.[15] 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.[16]

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 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.[17]

Spacecraft design

[edit]
Configuration of Akatsuki spacecraft (left) and a photograph of the spacecraft with the solar array paddles being folded (right).[10]
Schematic of the three-dimensional observation by Akatsuki.[10]

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 m2 (15 sq ft). The solar arrays provide over 700 W of power while in Venus orbit. The total mass of the spacecraft at launch was 517.6 kg (1,141 lb).[1] The mass of the science payload is 34 kg (75 lb).[18]

Propulsion is provided by a 500-newton (110 lbf) bi-propellant, hydrazine-dinitrogen tetroxide orbital maneuvering engine and twelve mono-propellant hydrazine reaction control thrusters, eight with 23 N (5.2 lbf) of thrust and four with 3 N (0.67 lbf).[1] It is the first spacecraft to use a ceramic (silicon nitride) retrofire thruster.[19] The total propellant mass at launch was 196.3 kg (433 lb).[1]

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.[11] 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 the high-gain antenna is not facing Earth.[1]

Instruments

[edit]

The scientific payload consists of six instruments. The five imaging cameras are exploring Venus in wavelengths from ultraviolet to the mid-infrared:[20][21]

  1. the Lightning and Airglow Camera (LAC) is looking for lightning in the visible spectrum (552–777 nm)
  2. the ultraviolet imager (UVI) is studying the distribution of specific atmospheric gases such as sulfur dioxide and the famous unknown absorber at ultraviolet wavelengths (283–365 nm)
  3. the longwave infrared camera (LIR) is studying the structure of high-altitude clouds at a wavelength where they emit heat (10 μm)
  4. the infrared 1 μm camera (IR1) is imaging on the night side heat radiation (0.90–1.01 μm) emitted from Venus's surface and help researchers to spot active volcanoes, if they exist. While on the day side, it sensed the solar near-infrared radiation (0.90 μm) reflected by the middle clouds. Unavailable for observation after December 2016 due to an electronic failure.[22][23]
  5. the infrared 2 μm camera (IR2) studied the night side lower clouds' opacity to the thermal emission from the surface and deeper atmosphere (1.74–2.32 μm). It also sensed on the day side the CO2 band at 2.02 μm, which can be used to infer the altitude of the top of the clouds. Finally, the 1.65-μm filter was used during the cruise phase to study the zodiacal light. Unavailable for observation after December 2016 due to an electronic failure.[23]
  6. the Ultra-Stable Oscillator (USO) for performing radio occultation experiments.

Public relations

[edit]

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.[24][25] Names and messages were printed in fine letters on an aluminium plate and placed aboard Akatsuki.[24] 260,214 people submitted names and messages for the mission.[26] Around 90 aluminium plates were created for the spacecraft,[27] including three aluminium plates in which the images of the Vocaloid Hatsune Miku and her super deformed-styled figure Hachune Miku were printed.[28]

Operations

[edit]

Launch

[edit]
The launch of Akatsuki
Animation of Akatsuki trajectory from 21 May 2010 to 31 December 2016
  Akatsuki
  Venus
  Earth
  Sun

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 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.[29]

The spacecraft was launched on 20 May 2010 at 21:58:22 (UTC) from the Tanegashima Space Center,[17] after being delayed because of weather from its initial 18 May scheduled target.[30]

Orbit insertion failure

[edit]
Movement of the spacecraft orbit and Venus in a Sun-Earth line fixed rotating coordinate in the original plan. Numerals in the figure indicate days after VOI.[10]

Akatsuki was planned to initiate orbit insertion operations by igniting the orbital maneuvering engine at 23:49:00 on 6 December 2010 UTC.[29] 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), a periapsis altitude of 300 km (190 mi), and a 30 h orbital period.[31]

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.[32] Due to the low communication speed through the low-gain antenna, it took a while to determine the state of the probe.[33] JAXA stated on 8 December that the probe's orbital insertion maneuver had failed.[34][35] 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.[36] Further research found that the likely reason for the engine malfunction 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.[37]

As a result, the probe was in a heliocentric orbit, rather than Venus orbit. Since the resulting orbit had an orbital period of 203 days,[38] shorter than Venus' orbital period of 225 days, the probe drifted around the Sun compared to Venus.

Recovery efforts

[edit]

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 the probe operational, pointing to reduced battery wear, since the probe was then orbiting the Sun instead of its intended Venusian orbit.[39]

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.[29] However, the thrust was only about 40 newtons (9.0 lbf), 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 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.[37]

Three peri-Venus orbital maneuvers were executed on 1 November,[17] 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 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 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.[40] The probe reached its most distant point from Venus on 3 October 2013 and had been approaching the planet since then.[41]

Orbit insertion

[edit]
Animation of Akatsuki's trajectory around Venus from 1 December 2015
   Akatsuki ·   Venus

After performing the last of a series of four trajectory correction maneuvers between 17 July and 11 September 2015, 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.[5][6][42] 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.[4]

After JAXA engineers measured and calculated its orbit following 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.[43]

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.[3][4]

Status

[edit]

The orbiter started its two-year period of "regular" science operations in mid-May 2016.[44] Since 9 December 2016, the near-infrared 1-μm and 2-μm cameras have been unavailable for observations due to an electronic failure.[22][23] Its long-wave infrared camera, ultraviolet imager, and lightning and airglow camera continue normal operation.[23]

By April 2018, Akatsuki finished its regular observation phase, and entered an extended operation phase.[45] Extended operations are approved until the end of 2020, with further mission extensions to be considered based on the spacecraft's condition at that time. Akatsuki has enough fuel to continue operating for at least 2 more years as of November 2019.[46]

As of March 2024, operation was planned to continue through FY2028.[47] In April 2024, degraded precision of attitude control resulted in failure of communication.[48] JAXA declared the spacecraft's loss of contact with Earth on May 29, 2024.[49][50]

Science

[edit]

Three hours after insertion in December 2015 and in "a few glimmers in April and May" 2016 the craft's instruments recorded a "bow-shape feature in the atmosphere stretching 6,000 miles, almost pole to pole — a sideways smile".[51] 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).[12][13] The mission is collecting data in all relevant spectral bands from ultraviolet (280 nm) to mid-infrared wavelengths (10 μm).[52]

Images from 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.[53] The wind speed maximized near the equator. In September 2017, JAXA scientists named this phenomenon 'Venusian equatorial jet'.[54] They also published results on equatorial winds at the cloud-top level by tracking clouds on the UV spectrum.[55] 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."[51] By 2017, the science team published 3D maps on the Venus atmosphere structure.[51] The physical quantities retrieved include the pressure, the temperature, the H
2
SO
4
vapor density, and the ionospheric electron density and their variations.[51] By the year 2019, the first results about the morphology, temporal changes[56] 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.[57]

To image lightning, the orbiter has sight of the dark side of Venus for about 30 minutes every 10 days.[58] As of July 2019, it has accumulated 16.8 hours of observations of the night side, and no lightning has been detected.[59]

[edit]

See also

[edit]

References

[edit]
  1. ^ a b c d e f g Takeshi, Oshima; Tokuhito, Sasaki. "Development of the Venus Climate Orbiter PLANET-C (AKATSUKI)" (PDF). NEC Technical Journal. 6 (1): 47–51.
  2. ^ Stephen Clark (20 May 2010). "H-2A Launch Report – Mission Status Center". Spaceflight Now. Archived from the original on 20 May 2010. Retrieved 20 May 2010.
  3. ^ a b c "AKATSUKI:PLANET-C project" (PDF). Retrieved 22 January 2022.
  4. ^ a b c "Japanese probe fires thrusters in second bid to enter Venus orbit". The Japan Times. 7 December 2015. Retrieved 7 December 2015.
  5. ^ a b c Szondy, David. "Akatsuki probe enters orbit around Venus". Retrieved 7 December 2015.
  6. ^ a b c Clark, Stephan. "Japanese probe fires rockets to steer into orbit at Venus". Retrieved 7 December 2015.
  7. ^ Chris Bergin (20 May 2010). "AXA H-IIA carrying Akatsuki and IKAROS launches at second attempt". NASASpaceFlight. Retrieved 19 November 2010.
  8. ^ Limaye, Sanjay. "Live from Sagamihara: Akatsuki Orbit Insertion – Second Try". Retrieved 7 December 2015.
  9. ^ Wenz, John (21 September 2015). "Japan's Long Lost Venus Probe May Boom Back to Life". Popular Mechanics. Retrieved 14 October 2015.
  10. ^ a b c d M. Nakamura; T. Imamura; N. Ishii; T. Abe; T. Satoh; et al. (21 June 2011). "Overview of Venus orbiter, Akatsuki". Earth, Planets and Space. 63 (5): 443–457. Bibcode:2011EP&S...63..443N. doi:10.5047/eps.2011.02.009. ISSN 1880-5981.
  11. ^ a b "Exploring the Venusian Atmosphere – AKATSUKI/PLANET-C". Akatsuki Special Site. Retrieved 5 December 2015.
  12. ^ a b Kenneth Chang (16 January 2017). "Venus Smiled, With a Mysterious Wave Across Its Atmosphere". The New York Times. Retrieved 17 January 2017.
  13. ^ a b T. Fukuhara; M. Futaguchi; G. L. Hashimoto; T. Horinouchi; T. Imamura; et al. (16 January 2017). "Large stationary gravity wave in the atmosphere of Venus". Nature. 10 (2): 85–88. Bibcode:2017NatGe..10...85F. doi:10.1038/ngeo2873.
  14. ^ Jones, Andrew (31 May 2024). "Japan loses contact with Akatsuki, humanity's only active Venus probe". space.com. Retrieved 4 October 2024.
  15. ^ "JAXA | Takeshi Imamura Project Scientist, AKATSUKI "Venus Unveiled: A Planet Beyond Our Imagination"".
  16. ^ Staff writers (8 December 2010). "Japan probe shoots past Venus, may meet again in six years". Spacedaily.com. Retrieved 3 December 2011.
  17. ^ a b c "AKATSUKI orbit control at perihelion". JAXA. 1 November 2011. Archived from the original on 13 May 2012. Retrieved 3 December 2011.
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