Enceladus Orbilander: Difference between revisions

Enceladus Orbilander
	Artist's impression of the Enceladus Orbilander
Mission type	Enceladus Orbiter and Lander
Operator	NASA
Website	https://space.jhuapl.edu/projects-and-studies/enceladus-orbilander
Mission duration	Overall: ~15 years total ; 3.5 years at Enceladus; ; En route: 7 year cruise; 4 years Saturnian moons tour; ; Science Phase: 1.5 years Enceladus orbit; 2 years on Enceladus surface; ;
Spacecraft properties
Manufacturer	APL (proposed)
Launch mass	6610 kg
Dry mass	2690 kg
Power	741 W (at launch) 589 W (landing)
Start of mission
Launch date	October 2038 (proposed)
Rocket	Space Launch System Block 2 (proposed)
Launch site	Kennedy Space Center, Pad 39B
Contractor	NASA
Flyby of Jupiter
Closest approach	October 2040 (proposed)
Distance	4,730,000 km (2,940,000 mi)
Saturn orbiter
Orbital insertion	August 2045 (proposed)
Orbital departure	early 2050 (proposed)
Enceladus orbiter
Orbital insertion	early 2050 (proposed)
Orbital departure	mid 2051 (proposed)
Enceladus lander
Landing date	mid 2051 (proposed)
	Large Strategic Science Missions; Planetary Science Division ← Uranus Orbiter and Probe Solar System Exploration program

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The Enceladus Orbilander is a proposed NASA Flagship mission to Saturn's moon Enceladus. The Enceladus Orbilander would spend a year and a half orbiting Enceladus and sampling its water plumes, which stretch into space, before landing on the surface for a two-year mission to study materials for evidence of life.^[1] The mission, with an estimated cost of $4.9 billion, could launch in the late 2030s on a Space Launch System or Falcon Heavy with a landing in the early 2050s. It was proposed in the 2023–2032 Planetary Science Decadal Survey as the third highest priority Flagship mission, after the Uranus Orbiter and Probe and the Mars Sample Return program.^[2]

Background

At 500 kilometres (310 miles) in diameter, Enceladus is the sixth largest moon of Saturn and the 19th largest in the solar system.^[3] Enceladus has been visited and imaged in detail by three other probes: the twin Voyager spacecraft, and the Saturn orbiting Cassini spacecraft. Out of these, Cassini investigated Enceladus in the most detail and contributed the most to the current scientific understanding of Enceladus. Cassini's 23 targeted close flybys^[4] helped discover that Enceladus is a geologically active world, with young (recently formed/solidified) terrain. The flybys also showed active, warm water plumes, along with evidence hinting at a subsurface ocean.^[5] Cassini also provided evidence of hydrothermal processes driving both the geysers and Enceladus' active geology, making the moon one of the most attractive places to find life within the solar system.

After Cassini's mission, a variety of proposals to follow-up on Cassini's findings at Enceladus.^[6] Journey to Enceladus and Titan, an astrobiology mission to Enceladus and Titan, competed for the 13th Discovery Program mission but was not selected.^[7]^[8] Later, In 2017, two Enceladus focused astrobiology missions, Enceladus Life Signatures and Habitability and Enceladus Life Finder competed for the 4th New Frontiers mission, but were ultimately not selected.^[9]^[10]

The Enceladus Orbilander proposal was created by a team led by Shannon MacKenzie to support the Planetary Science Decadal Survey.^[11] While previous mission studies had investigated multiple flybys to study Enceladus, MacKenzie's team, studying a Flagship mission architecture with a greater budget cap, decided to study an orbiter, lander, or a combination thereof.^[12] Ultimately, the decision to combine the orbiter and lander into one spacecraft was informed by Enceladus' small size and negligible gravity, which results in trivial delta-v to land.^[13] In the 2022-2032 Planetary Decadal Survey, the Enceladus Orbilander was recommended as the third highest priority new flagship mission.^[14] The selection was motivated by proposal's exobiology and planetary habitability focus.^[15]

Spacecraft design and instrumentation

Due to Enceladus's small size, the amount of energy required to land compared to capturing into orbit is negligible. Therefore, the Enceladus Orbilander is envisioned uniquely combine both the functions of an orbiter and a lander into a single spacecraft.^[16]

Scientific instruments

The proposed spacecraft will carry three separate instrument suites and a sampling system. Each instrument suite is tailored towards a different regime of science operations.

The proposed instruments are: ^[1]^{: 10,B7-B10}

Instrument	Heritage Instrument (Mission)	Science Suite
High-Resolution Mass Spectrometer (HRMS)	MASPEX (Europa Clipper)	Life Detection Suite
Separation Mass Spectrometer (SMS)	Sample Analysis at Mars (Curiosity)
Electrochemical Sensor Array (ESA)	Wet Chemistry Laboratory (Phoenix)
Microcapillary Electrophoresis-Laser Induced Fluorescence	N/A
Microscope	MECA Atomic Force Microscope (Phoenix)
Solid State Nanopore Sequencer	N/A
Narrow Angle Camera (NAC)	Long Range Reconnaissance Imager (New Horizons)	Life Detection Suite
Wide Angle Camera (WAC)	ECAM-M50 (Janus)
Thermal Emission Spectrometer (TES)	Mercury Radiometer and Thermal Infrared Spectrometer (BepiColombo)
Context Imager	Stereo Surface Imager (Phoenix)	In Situ Suite
Seismometer	Seismic Experiment for Interior Structure (Insight)	In Situ Suite

Additionally, three separate sampling systems are proposed for each stage of flight: a 1 square meter funnel to passively collect particles, a scoop for active particle collection on the surface, and a gas inlet for gas emissions.^[1]^: 10,B11

Mission profile

The Enceladus Orbilander is proposed to be launched in October 2038.^[1]^: 4 The spacecraft is proposed to be launched by a Space Launch System Block II variant with a Castor 30B upper stage, although a Falcon Heavy has also been considered but would require the spacecraft to launch on a slower trajectory with flybys of Venus.^[1]^: 7 The spacecraft's proposed launch is timed so that a Jupiter gravity assist can be performed in October 2040 to save propellant for Saturn orbital insertion in August 2045.^[1]^: 19 In Saturn orbit, the spacecraft will embark on a complex, 4.5 year long tour of the moons of Saturn, using gravity assists off moons such as Titan, Rhea, Dione, and Tethys to lower the orbital inclination of the spacecraft.^[1]^: 21-22 After a series of flybys with Enceladus itself, the spacecraft will enter Enceladus orbit.

The spacecraft will spend 1.5 years in a 12 hours long elliptical orbit around Enceladus.^[1]^: 20 The closest point of the orbit to the surface will pass over the south polar tiger stripes to collect plume particles and remote sensing data. Whilst orbiting Enceladus, mission planners will use high resolution images and other data to determine a safe landing ellipse.^[13] When mission planners decide to land the spacecraft, the Enceladus Orbilander will lower its orbit and begin a powered descent towards the surface. The spacecraft will use terrain-relative navigation similar to systems used on OSIRIS-REx to avoid hazards during the descent.^[16] When the spacecraft is 10 metres (33 ft) above the surface, the main engine shuts off to avoid contaminating the area, and the spacecraft pitches to its side before soft landing.^[1]^: 16

References

^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l MacKenzie, Shannon M.; Kirby, Karen W.; Greenauer, Peter J.; Neveu, Marc; Gold, Rob; Davila, Alfonso; Lunine, Jonathan I.; Cable, Morgan; Craft, Kate; Eigenbrode, Jennifer; Glein, Christopher; Hofgartner, Jason; Mckay, Christopher; Phillips-Lander, Charity; Waite, Hunter; Burton, Dana; Seifert, Helmut; Boye, Jeff; Brock, Spencer; Chen, Michelle; Coker, Rob; Colonel, Grace; Criss, Tom; Crowley, Doug (14 October 2020). "Enceladus Orbilander: A Flagship Mission Concept for Astrobiology". NASA Technical Reports Server. Retrieved 26 April 2024.
^ Foust, Jeff (19 April 2022). "Planetary science decadal endorses Mars sample return, outer planets missions". SpaceNews. Retrieved 19 April 2022.
^ "Enceladus: Facts & Figures". Solar System Exploration. NASA. 12 August 2013. Archived from the original on 16 October 2013. Retrieved 26 April 2014.
^ Cofield, Calla (26 October 2017). "How Cassini Mission's Twists and Turns Led to Discovery of Enceladus' Plumes". Space.com. Future US Inc. Retrieved 29 April 2024.
^ "Cassini at Enceladus: A Decade-Plus of Discovery - NASA Science". NASA. 24 January 2024. Retrieved 29 April 2024.
^ Carter, Jamie (10 June 2022). "Seven Things You Need To Know About NASA's New $4.9 Billion Mission To Enceladus, A Tiny Moon Of Saturn". Forbes. Retrieved 29 April 2024.
^ Sotin, C.; Altwegg, K.; Brown, R.H.; et al. (2011). JET: Journey to Enceladus and Titan (PDF). 42nd Lunar and Planetary Science Conference. Lunar and Planetary Institute.
^ Brown, Dwayne. "NASA Selects Two Missions to Explore the Early Solar System - NASA". nasa.gov. NASA. Retrieved 30 July 2024.
^ Chang, Kenneth (15 September 2017). "Back to Saturn? Five Missions Proposed to Follow Cassini". The New York Times.
^ Inner Workings: Icy ocean worlds offer chances to find life. Adam Mann, PNAS, 2 May 2017, vol. 114 no. 18 4566–4568, doi: 10.1073/pnas.1703361114
^ Bartels, Meghan = (5 October 2020). "If we want to find life on Saturn's moon Enceladus, we need to rule out Earthly hitchhikers". Space.com. Retrieved 30 July 2024.
^ MacKenzie, Shannon M.; Neveu, Marc; Davila, Alfonso F.; Lunine, Jonathan I.; Craft, Kathleen L.; Cable, Morgan L.; Phillips-Lander, Charity M.; Hofgartner, Jason D.; Eigenbrode, Jennifer L.; Waite, J. Hunter; Glein, Christopher R.; Gold, Robert; Greenauer, Peter J.; Kirby, Karen; Bradburne, Christopher; Kounaves, Samuel P.; Malaska, Michael J.; Postberg, Frank; Patterson, G. Wesley; Porco, Carolyn; Núñez, Jorge I.; German, Chris; Huber, Julie A.; McKay, Christopher P.; Vera, Jean-Pierre de; Brucato, John Robert; Spilker, Linda J. (27 April 2021). "The Enceladus Orbilander Mission Concept: Balancing Return and Resources in the Search for Life". The Planetary Science Journal. 2 (2): 77. Bibcode:2021PSJ.....2...77M. doi:10.3847/PSJ/abe4da. ISSN 2632-3338.
^ ^a ^b Strauss, Mark (19 June 2023). "Diamond in the Dark". Air & Space Quarterly. Smithsonian Institution. Retrieved 1 May 2024.{{cite magazine}}: CS1 maint: url-status (link)
^ Blatt, Josh. "Report Identifies Priority Planetary Science Missions, Planetary Defense Efforts, and Strategic Investments for the Next Decade". www.nationalacademies.org. National Academies of Sciences, Engineering, and Medicine. Retrieved 29 April 2024.
^ "Origins, Worlds, and Life: A Decadal Strategy for Planetary Science and Astrobiology 2023-2032". National Academies of Sciences, Engineering, and Medicine. 23 October 2023. doi:10.17226/26522. ISBN 978-0-309-47578-5. Retrieved 30 July 2024.
^ ^a ^b Atkinson, Nancy. "Meet Orbilander, a Mission to Search for Life on Enceladus". The Planetary Society. Retrieved 26 April 2024.

[report2020-1] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l MacKenzie, Shannon M.; Kirby, Karen W.; Greenauer, Peter J.; Neveu, Marc; Gold, Rob; Davila, Alfonso; Lunine, Jonathan I.; Cable, Morgan; Craft, Kate; Eigenbrode, Jennifer; Glein, Christopher; Hofgartner, Jason; Mckay, Christopher; Phillips-Lander, Charity; Waite, Hunter; Burton, Dana; Seifert, Helmut; Boye, Jeff; Brock, Spencer; Chen, Michelle; Coker, Rob; Colonel, Grace; Criss, Tom; Crowley, Doug (14 October 2020). "Enceladus Orbilander: A Flagship Mission Concept for Astrobiology". NASA Technical Reports Server. Retrieved 26 April 2024.

[2] Foust, Jeff (19 April 2022). "Planetary science decadal endorses Mars sample return, outer planets missions". SpaceNews. Retrieved 19 April 2022.

[Facts-3] "Enceladus: Facts & Figures". Solar System Exploration. NASA. 12 August 2013. Archived from the original on 16 October 2013. Retrieved 26 April 2014.

[cofield2017-4] Cofield, Calla (26 October 2017). "How Cassini Mission's Twists and Turns Led to Discovery of Enceladus' Plumes". Space.com. Future US Inc. Retrieved 29 April 2024.

[cassinitimeline-5] "Cassini at Enceladus: A Decade-Plus of Discovery - NASA Science". NASA. 24 January 2024. Retrieved 29 April 2024.

[forbes2022-6] Carter, Jamie (10 June 2022). "Seven Things You Need To Know About NASA's New $4.9 Billion Mission To Enceladus, A Tiny Moon Of Saturn". Forbes. Retrieved 29 April 2024.

[Sotin2011-7] Sotin, C.; Altwegg, K.; Brown, R.H.; et al. (2011). JET: Journey to Enceladus and Titan (PDF). 42nd Lunar and Planetary Science Conference. Lunar and Planetary Institute.

[8] Brown, Dwayne. "NASA Selects Two Missions to Explore the Early Solar System - NASA". nasa.gov. NASA. Retrieved 30 July 2024.

[9] Chang, Kenneth (15 September 2017). "Back to Saturn? Five Missions Proposed to Follow Cassini". The New York Times.

[10] Inner Workings: Icy ocean worlds offer chances to find life. Adam Mann, PNAS, 2 May 2017, vol. 114 no. 18 4566–4568, doi: 10.1073/pnas.1703361114

[Bartels2020-11] Bartels, Meghan = (5 October 2020). "If we want to find life on Saturn's moon Enceladus, we need to rule out Earthly hitchhikers". Space.com. Retrieved 30 July 2024.

[MacKenzie2021-12] MacKenzie, Shannon M.; Neveu, Marc; Davila, Alfonso F.; Lunine, Jonathan I.; Craft, Kathleen L.; Cable, Morgan L.; Phillips-Lander, Charity M.; Hofgartner, Jason D.; Eigenbrode, Jennifer L.; Waite, J. Hunter; Glein, Christopher R.; Gold, Robert; Greenauer, Peter J.; Kirby, Karen; Bradburne, Christopher; Kounaves, Samuel P.; Malaska, Michael J.; Postberg, Frank; Patterson, G. Wesley; Porco, Carolyn; Núñez, Jorge I.; German, Chris; Huber, Julie A.; McKay, Christopher P.; Vera, Jean-Pierre de; Brucato, John Robert; Spilker, Linda J. (27 April 2021). "The Enceladus Orbilander Mission Concept: Balancing Return and Resources in the Search for Life". The Planetary Science Journal. 2 (2): 77. Bibcode:2021PSJ.....2...77M. doi:10.3847/PSJ/abe4da. ISSN 2632-3338.

[AirandSpace2023-13] Strauss, Mark (19 June 2023). "Diamond in the Dark". Air & Space Quarterly. Smithsonian Institution. Retrieved 1 May 2024.{{cite magazine}}: CS1 maint: url-status (link)

[NASEM2020-14] Blatt, Josh. "Report Identifies Priority Planetary Science Missions, Planetary Defense Efforts, and Strategic Investments for the Next Decade". www.nationalacademies.org. National Academies of Sciences, Engineering, and Medicine. Retrieved 29 April 2024.

[decadal_survey-15] "Origins, Worlds, and Life: A Decadal Strategy for Planetary Science and Astrobiology 2023-2032". National Academies of Sciences, Engineering, and Medicine. 23 October 2023. doi:10.17226/26522. ISBN 978-0-309-47578-5. Retrieved 30 July 2024.

[atkinson2020-16] Atkinson, Nancy. "Meet Orbilander, a Mission to Search for Life on Enceladus". The Planetary Society. Retrieved 26 April 2024.

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@@ Line 33: / Line 33: @@
 | dry_mass          = 2690 kg
 | dimensions        =
-| power             = (at launch)
+| power             = 741 W (at launch) 589 W (landing)
 | launch_date       = October 2038 (proposed) {{r|report2020|p=33}}
@@ Line 82: / Line 82: @@
    | orbits          =
    | arrival_date    = mid 2051 (proposed)
-   | departure_date  =
+   |location         =
-   | periapsis       =
-   | apoapsis        =
-   | inclination     =
  }}
@@ Line 106: / Line 102: @@
 [[File:PIA17202 - Approaching Enceladus.jpg|alt=|thumb|300x300px|Enceladus' south pole, captured by NASA's [[Cassini-Huygens|Cassini-Huygens spacecraft]], 2015]]
-The '''Enceladus Orbilander''' is a proposed [[NASA]] [[Large strategic science missions|Flagship mission]] to [[Saturn|Saturn's]] moon [[Enceladus]]. The Enceladus Orbilander would spend a year and a half orbiting Enceladus and sampling its [[Enceladus#South polar plumes|water plumes]], which stretch into space, before landing on the surface for a two-year mission to study materials for evidence of life.<ref name="report2020">{{cite journal |last1=MacKenzie |first1=Shannon M. |last2=Kirby |first2=Karen W. |last3=Greenauer |first3=Peter J. |last4=Neveu |first4=Marc |last5=Gold |first5=Rob |last6=Davila |first6=Alfonso |last7=Lunine |first7=Jonathan I. |last8=Cable |first8=Morgan |last9=Craft |first9=Kate |last10=Eigenbrode |first10=Jennifer |last11=Glein |first11=Christopher |last12=Hofgartner |first12=Jason |last13=Mckay |first13=Christopher |last14=Phillips-Lander |first14=Charity |last15=Waite |first15=Hunter |last16=Burton |first16=Dana |last17=Seifert |first17=Helmut |last18=Boye |first18=Jeff |last19=Brock |first19=Spencer |last20=Chen |first20=Michelle |last21=Coker |first21=Rob |last22=Colonel |first22=Grace |last23=Criss |first23=Tom |last24=Crowley |first24=Doug |title=Encealdus Orbilander: A Flagship Mission Concept for Astrobiology |journal=NASA Technical Reports Server |date=14 October 2020 |url=https://ntrs.nasa.gov/citations/20205008712 |access-date=26 April 2024 |language=en}}</ref> The mission, with an estimated cost of $4.9 billion, could launch in the late 2030s on a [[Space Launch System]] or [[Falcon Heavy]] with a landing in the early 2050s. It was proposed in the [[Planetary Science Decadal Survey#2023–2032, Origins, Worlds, and Life|2023–2032 Planetary Science Decadal Survey]] as the third highest priority Flagship mission, after the [[Uranus Orbiter and Probe]] and the [[Mars sample-return mission|Mars Sample Return]] program.<ref>{{cite news|last=Foust|first=Jeff|url=https://spacenews.com/planetary-science-decadal-endorses-mars-sample-return-outer-planets-missions/|title=Planetary science decadal endorses Mars sample return, outer planets missions|publisher=SpaceNews|date=19 April 2022|access-date=19 April 2022}}</ref>
+The '''Enceladus Orbilander''' is a proposed [[NASA]] [[Large strategic science missions|Flagship mission]] to [[Saturn|Saturn's]] moon [[Enceladus]]. The Enceladus Orbilander would spend a year and a half orbiting Enceladus and sampling its [[Enceladus#South polar plumes|water plumes]], which stretch into space, before landing on the surface for a two-year mission to study materials for evidence of life.<ref name="report2020">{{cite journal |last1=MacKenzie |first1=Shannon M. |last2=Kirby |first2=Karen W. |last3=Greenauer |first3=Peter J. |last4=Neveu |first4=Marc |last5=Gold |first5=Rob |last6=Davila |first6=Alfonso |last7=Lunine |first7=Jonathan I. |last8=Cable |first8=Morgan |last9=Craft |first9=Kate |last10=Eigenbrode |first10=Jennifer |last11=Glein |first11=Christopher |last12=Hofgartner |first12=Jason |last13=Mckay |first13=Christopher |last14=Phillips-Lander |first14=Charity |last15=Waite |first15=Hunter |date=14 October 2020 |title=Enceladus Orbilander: A Flagship Mission Concept for Astrobiology |url=https://ntrs.nasa.gov/citations/20205008712 |journal=NASA Technical Reports Server |language=en |access-date=26 April 2024 |last16=Burton |first16=Dana |last17=Seifert |first17=Helmut |last18=Boye |first18=Jeff |last19=Brock |first19=Spencer |last20=Chen |first20=Michelle |last21=Coker |first21=Rob |last22=Colonel |first22=Grace |last23=Criss |first23=Tom |last24=Crowley |first24=Doug}}</ref> The mission, with an estimated cost of $4.9 billion, could launch in the late 2030s on a [[Space Launch System]] or [[Falcon Heavy]] with a landing in the early 2050s. It was proposed in the [[Planetary Science Decadal Survey#2023–2032, Origins, Worlds, and Life|2023–2032 Planetary Science Decadal Survey]] as the third highest priority Flagship mission, after the [[Uranus Orbiter and Probe]] and the [[Mars sample-return mission|Mars Sample Return]] program.<ref>{{cite news|last=Foust|first=Jeff|url=https://spacenews.com/planetary-science-decadal-endorses-mars-sample-return-outer-planets-missions/|title=Planetary science decadal endorses Mars sample return, outer planets missions|publisher=SpaceNews|date=19 April 2022|access-date=19 April 2022}}</ref>
+==Background==
+At {{convert|500|km|mi|abbr=off}} in diameter, Enceladus is the sixth largest moon of Saturn and the 19th largest in the solar system.<ref name="Facts">{{cite web|url=http://solarsystem.nasa.gov/planets/profile.cfm?Object=Sat_Enceladus&Display=Facts|work=Solar System Exploration|title=Enceladus: Facts & Figures|publisher=NASA|date=August 12, 2013|access-date=April 26, 2014|url-status=dead|archive-url=https://web.archive.org/web/20131016093801/http://solarsystem.nasa.gov/planets/profile.cfm?Object=Sat_Enceladus&Display=Facts|archive-date=October 16, 2013}}</ref>
+Enceladus has been visited and imaged in detail by three other probes: the twin [[Voyager program|Voyager spacecraft]], and the Saturn orbiting [[Cassini–Huygens|''Cassini'' spacecraft]]. Out of these, ''Cassini'' investigated Enceladus in the most detail and contributed the most to the current scientific understanding of Enceladus. Cassini's 23 targeted close flybys<ref name="cofield2017">{{cite news |last1=Cofield |first1=Calla |title=How Cassini Mission's Twists and Turns Led to Discovery of Enceladus' Plumes |url=https://www.space.com/38559-how-cassini-discovered-enceladus-plumes.html |access-date=29 April 2024 |work=Space.com |publisher=Future US Inc |date=26 October 2017 |language=en}}</ref> helped discover that Enceladus is a geologically active world, with young (recently formed/solidified) terrain. The flybys also showed active, warm water plumes, along with evidence hinting at a subsurface ocean.<ref name="cassinitimeline">{{cite web |title=Cassini at Enceladus: A Decade-Plus of Discovery - NASA Science |url=https://science.nasa.gov/missions/cassini/cassini-at-enceladus-a-decade-plus-of-discovery/ |website=NASA |access-date=29 April 2024 |date=24 January 2024}}</ref> Cassini also provided evidence of hydrothermal processes driving both the geysers and Enceladus' active geology, making the moon one of the most attractive [[Enceladus#Potential habitability|places to find life]] within the solar system.
+After Cassini's mission, a variety of proposals to follow-up on Cassini's findings at Enceladus.<ref name="forbes2022">{{cite news |last1=Carter |first1=Jamie |title=Seven Things You Need To Know About NASA's New $4.9 Billion Mission To Enceladus, A Tiny Moon Of Saturn |url=https://www.forbes.com/sites/jamiecartereurope/2022/06/10/seven-things-you-need-to-know-about-nasas-new-49-billion-mission-to-enceladus-a-tiny-moon-of-saturn/?sh=3719eb444880 |access-date=29 April 2024 |work=Forbes |date=10 June 2022 |language=en}}</ref> [[Journey to Enceladus and Titan]], an [[astrobiology]] mission to Enceladus and Titan, competed for the 13th  [[Discovery Program]] mission but was not selected.<ref name="Sotin2011">{{cite conference |last1=Sotin |first1=C. |last2=Altwegg |first2=K.|author2-link=Kathrin Altwegg |last3=Brown |first3=R.H. |display-authors=etal |title=JET: Journey to Enceladus and Titan |url=http://www.lpi.usra.edu/meetings/lpsc2011/pdf/1326.pdf |conference=42nd Lunar and Planetary Science Conference |publisher=[[Lunar and Planetary Institute]] |date=2011 }}</ref><ref>{{cite web |last1=Brown |first1=Dwayne |title=NASA Selects Two Missions to Explore the Early Solar System - NASA |url=https://www.nasa.gov/news-release/nasa-selects-two-missions-to-explore-the-early-solar-system/ |website=nasa.gov |publisher=NASA |access-date=30 July 2024}}</ref> Later, In 2017, two Enceladus focused astrobiology missions, [[Enceladus Life Signatures and Habitability]] and [[Enceladus Life Finder]] competed for the 4th [[New Frontiers program|New Frontiers]] mission, but were ultimately not selected.<ref>{{Cite web |url=https://www.nytimes.com/2017/09/15/science/saturn-cassini-return.html |title=Back to Saturn? Five Missions Proposed to Follow Cassini |first=Kenneth |last=Chang |work=The New York Times |date=15 September 2017}}</ref><ref>[http://www.pnas.org/content/114/18/4566.full Inner Workings: Icy ocean worlds offer chances to find life]. Adam Mann, ''PNAS'',  2 May 2017, vol. 114 no. 18 4566–4568, doi: 10.1073/pnas.1703361114</ref>
-==Spacecraft Design==
-Due to Enceladus's small size, the amount of energy required to land compared to capturing into orbit is negligible. Therefore, the Enceladus Orbilander is envisioned uniquely combine both the functions of an orbiter and a lander into a single spacecraft.<ref name="atkinson2020">{{cite web |last1=Atkinson |first1=Nancy |title=Meet Orbilander, a Mission to Search for Life on Enceladus |url=https://www.planetary.org/articles/meet-orbilander-enceladus-mission |website=The Planetary Society |publisher=The Planetary Society |access-date=26 April 2024 |language=en}}</ref>
+The Enceladus Orbilander proposal was created by a team led by Shannon MacKenzie to support the [[Planetary Science Decadal Survey]].<ref name="Bartels2020">{{cite news |last1=Bartels |first1=Meghan = |title=If we want to find life on Saturn's moon Enceladus, we need to rule out Earthly hitchhikers |url=https://www.space.com/enceladus-orbilander-life-detection-planetary-protection |access-date=30 July 2024 |work=Space.com |date=5 October 2020 |language=en}}</ref> While previous mission studies had investigated multiple flybys to study Enceladus, MacKenzie's team, studying a [[NASA large strategic science missions|Flagship mission]] architecture with a greater budget cap, decided to study an orbiter, lander, or a combination thereof.<ref name="MacKenzie2021">{{cite journal |last1=MacKenzie |first1=Shannon M. |last2=Neveu |first2=Marc |last3=Davila |first3=Alfonso F. |last4=Lunine |first4=Jonathan I. |last5=Craft |first5=Kathleen L. |last6=Cable |first6=Morgan L. |last7=Phillips-Lander |first7=Charity M. |last8=Hofgartner |first8=Jason D. |last9=Eigenbrode |first9=Jennifer L. |last10=Waite |first10=J. Hunter |last11=Glein |first11=Christopher R. |last12=Gold |first12=Robert |last13=Greenauer |first13=Peter J. |last14=Kirby |first14=Karen |last15=Bradburne |first15=Christopher |last16=Kounaves |first16=Samuel P. |last17=Malaska |first17=Michael J. |last18=Postberg |first18=Frank |last19=Patterson |first19=G. Wesley |last20=Porco |first20=Carolyn |last21=Núñez |first21=Jorge I. |last22=German |first22=Chris |last23=Huber |first23=Julie A. |last24=McKay |first24=Christopher P. |last25=Vera |first25=Jean-Pierre de |last26=Brucato |first26=John Robert |last27=Spilker |first27=Linda J. |title=The Enceladus Orbilander Mission Concept: Balancing Return and Resources in the Search for Life |journal=The Planetary Science Journal |date=27 April 2021 |volume=2 |issue=2 |pages=77 |doi=10.3847/PSJ/abe4da |doi-access=free |bibcode=2021PSJ.....2...77M |language=en |issn=2632-3338}}</ref> Ultimately, the decision to combine the orbiter and lander into one spacecraft was informed by Enceladus' small size and negligible gravity, which results in trivial delta-v to land.<ref name="AirandSpace2023">{{cite magazine |last=Strauss |first=Mark |date=19 June 2023 |title=Diamond in the Dark |url=https://airandspace.si.edu/air-and-space-quarterly/summer-2023/enceladus-life |url-status=live |magazine=Air & Space Quarterly |location= |publisher=Smithsonian Institution |archive-url= |archive-date= |access-date=1 May 2024}}</ref>
+In the [[Planetary Science Decadal Survey#2023–2032, Origins, Worlds, and Life|2022-2032 Planetary Decadal Survey]], the Enceladus Orbilander was recommended as the third highest priority new flagship mission.<ref name="NASEM2020">{{cite news |last1=Blatt |first1=Josh |title=Report Identifies Priority Planetary Science Missions, Planetary Defense Efforts, and Strategic Investments for the Next Decade |url=https://www.nationalacademies.org/news/2022/04/report-identifies-priority-planetary-science-missions-planetary-defense-efforts-and-strategic-investments-for-the-next-decade |access-date=29 April 2024 |work=www.nationalacademies.org |publisher=National Academies of Sciences, Engineering, and Medicine}}</ref> The selection was motivated by proposal's [[exobiology]] and [[planetary habitability]] focus.<ref name="decadal_survey">{{cite journal |title=Origins, Worlds, and Life: A Decadal Strategy for Planetary Science and Astrobiology 2023-2032 |journal=National Academies of Sciences, Engineering, and Medicine |date=23 October 2023 |doi=10.17226/26522 |isbn=978-0-309-47578-5 |url=https://nap.nationalacademies.org/read/26522/chapter/1 |access-date=30 July 2024}}</ref>
+==Spacecraft design and instrumentation==
+Due to Enceladus's small size, the amount of energy required to land compared to capturing into orbit is negligible. Therefore, the Enceladus Orbilander is envisioned uniquely combine both the functions of an orbiter and a lander into a single spacecraft.<ref name="atkinson2020">{{cite web |last1=Atkinson |first1=Nancy |title=Meet Orbilander, a Mission to Search for Life on Enceladus |url=https://www.planetary.org/articles/meet-orbilander-enceladus-mission |website=The Planetary Society |access-date=26 April 2024 |language=en}}</ref>
 ===Scientific instruments===
@@ Line 121: / Line 125: @@
 | [[Mass spectrometry|High-Resolution Mass Spectrometer]] (HRMS)
 | [[Europa Clipper#Mass Spectrometer for Planetary Exploration (MASPEX)|MASPEX]] ([[Europa Clipper]])
-| Life Detection Suite
+| rowspan="6" | Life Detection Suite
 |-
 | [[Gas chromatography–mass spectrometry|Separation Mass Spectrometer]] (SMS)
-| [[Sample Analysis at Mars|Sample Analysis at Mars]] ([[Curiosity (rover)|''Curiosity'']])
+| [[Sample Analysis at Mars]] ([[Curiosity (rover)|''Curiosity'']])
-| Life Detection Suite
 |-
 | Electrochemical Sensor Array (ESA)
 | [[Phoenix (spacecraft)#Wet Chemistry Laboratory (WCL)|Wet Chemistry Laboratory]] ([[Phoenix (spacecraft)|''Phoenix'']])
-| Life Detection Suite
 |-
 |  Microcapillary Electrophoresis-Laser Induced Fluorescence
 | N/A
-| Life Detection Suite
 |-
 | [[Atomic force microscopy|Microscope]]
 | [[Phoenix (spacecraft)#Atomic force microscope|MECA Atomic Force Microscope]] ([[Phoenix (spacecraft)|''Phoenix'']])
-| Life Detection Suite
 |-
 | Solid State Nanopore Sequencer
 | N/A
-| Life Detection Suite
 |-
 | Narrow Angle Camera (NAC)
 | [[Long Range Reconnaissance Imager]] (''[[New Horizons]]'')
-| Remote Sensing and Reconnaissance Detection Suite
+| rowspan="3" | Life Detection Suite
 |-
 | Wide Angle Camera (WAC)
 | ECAM-M50 ([[Janus (spacecraft)|Janus]])
-| Remote Sensing and Reconnaissance Detection Suite
 |-
 | [[Thermal infrared spectroscopy|Thermal Emission Spectrometer]] (TES)
 | Mercury Radiometer and Thermal Infrared Spectrometer ([[BepiColombo]])
-| Remote Sensing and Reconnaissance Detection Suite
 |-
 | Context Imager
 | Stereo Surface Imager ([[Phoenix (spacecraft)|''Phoenix'']])
-| In Situ Suite
+| rowspan="2" | In Situ Suite
 |-
 | Seismometer
 |  [[Seismic Experiment for Interior Structure]] ([[InSight|''Insight'']])
-| In Situ Suite
 |-
 |}
 Additionally, three separate sampling systems are proposed for each stage of flight: a 1 square meter funnel to passively collect particles, a scoop for active particle collection on the surface, and a gas inlet for gas emissions.{{r|report2020|p=10,B11}}
+==Mission profile==
+The Enceladus Orbilander is proposed to be launched in October 2038.{{r|report2020|p=4}} The spacecraft is proposed to be launched by a [[Space Launch System]] Block II variant with a [[Castor (rocket stage)|Castor]] 30B upper stage, although a [[Falcon Heavy]] has also been considered but would require the spacecraft to launch on a slower trajectory with flybys of Venus.{{r|report2020|p=7}}  The spacecraft's proposed launch is timed so that a Jupiter [[gravity assist]] can be performed in October 2040 to save propellant for Saturn orbital insertion in August 2045.{{r|report2020|p=19}} In Saturn orbit, the spacecraft will embark on a complex, 4.5 year long tour of the [[moons of Saturn]], using gravity assists off moons such as [[Titan (moon)|Titan]], [[Rhea (moon)|Rhea]], [[Dione (moon)|Dione]], and [[Tethys (moon)|Tethys]] to lower the [[orbital inclination]] of the spacecraft.{{r|report2020|p=21-22}} After a series of flybys with Enceladus itself, the spacecraft will enter Enceladus orbit.
+The spacecraft will spend 1.5 years in a 12 hours long [[Elliptic orbit|elliptical orbit]] around Enceladus.{{r|report2020|p=20}} The closest point of the orbit to the surface  will pass over the south polar [[Tiger stripes (Enceladus)|tiger stripes]] to collect plume particles and remote sensing data. Whilst orbiting Enceladus, mission planners will use high resolution images and other data to determine a safe [[Landing footprint|landing ellipse]].<ref name="AirandSpace2023" /> When mission planners decide to land the spacecraft, the Enceladus Orbilander will lower its orbit and begin a powered descent towards the surface.   The spacecraft will use terrain-relative navigation similar to systems used on [[OSIRIS-REx]] to avoid hazards during the descent.<ref name="atkinson2020" /> When the spacecraft is {{convert|10|m|ft}} above the surface, the main engine shuts off to avoid contaminating the area, and the spacecraft pitches to its side before soft landing.{{r|report2020|p=16}}
 ==See also==
@@ Line 184: / Line 185: @@
 {{Astrobiology}}
 {{Enceladus|state=collapsed}}
-{{planetary-science-stub}}
 [[Category:Proposed NASA space probes]]