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(Top) 1 Overview 2 Background 3 Possible mission timeline 4 Mission architecture 4.1 Jupiter Callisto Orbiter (JCO) 4.2 Jupiter Systems Observer (JSO) 5 Mission instruments 5.1 Plasma and dust analyzers package 5.2 Multi-wavelength imaging/spectroscopy package 5.3 Geology/glaciology/geochemistry analyzers package 5.4 Radio + optical link + radio science package 6 Notes 7 See also 8 References 9 External links

Tianwen-4

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Tianwen-4
天问四号
Spacecraft properties

Mission type	Jupiter and Callisto orbiter Uranus flyby
Operator	CNSA


Manufacturer	CAST
Launch mass	Total: 5,000 kg (11,000 lb)^[1] Jupiter-Callisto Orbiter: 4,000 kg (8,800 lb) Interplanetary flyby probe: 1,000 kg (2,200 lb)


Start of mission
Launch date	September 2029 (proposed)^[2]
Rocket	Long March 5
Launch site	Wenchang


Flyby of Venus (gravity assist)
Closest approach	April 2030 (proposed)
Flyby of Earth (gravity assist)
Closest approach	February 2031 (proposed)
Flyby of Earth (gravity assist)
Closest approach	May 2033 (proposed)
Jupiter orbiter
Orbital insertion	December 2035 (proposed)^[3]
Orbital departure	February 2038 (proposed)
Callisto orbiter
Orbital insertion	February 2038 (proposed)^[4]
Flyby of Uranus (Interplanetary flyby probe)
Closest approach	March 2045 (proposed)^[3]

Tianwen program ← Tianwen-3

Tianwen-4 (Chinese: 天问四号), formerly known as Gan De (Chinese: 甘德),^[5] is a planned Chinese interplanetary mission to study the Jovian system, possibly sharing a launch with a spacecraft which will make a flybyofUranus.^[6]

Overview[edit]

The goals of the planned Tianwen-4 Jupiter mission include: study of the interaction between magnetic fields and plasma present in the Jovian system, examination of the compositional variations in the Jovian atmosphere, exploration of the internal structures and surface characteristics of either GanymedeorCallisto, as well as investigation of the space environment surrounding the aforementioned Galilean satellites.^[7]

According to reports in the Western media, there are two competing mission profiles as of January 2021^[update]: the 'Jupiter Callisto Orbiter' (JCO) and the 'Jupiter System Observer' (JSO).^[5] 'JCO' would involve a spacecraft conducting fly-bys of Jupiter's irregular satellites before it enters into a polar orbit about Callisto; this mission profile also may include a Callisto lander. In contrast, the 'JSO' mission profile, while broadly similar to that of 'JCO', would forgo an attempt by a spacecraft to orbit Callisto and instead would focus on more intensive studies of the Galilean moon Io (the 'JSO' mission profile also does not appear to include a lander though it may involve sending the spacecraft to the Sun-Jupiter L1 point at the conclusion of its tour of the Jovian system). Finally, presentations by Chinese researchers suggest that the Tianwen-4 Jupiter mission may include an additional probe that would conduct a fly-by of Uranus sometime after 2040.^[8] As of December 2023, it appears that the JCO Profile has been selected, with the Uranus flyby as well.^[9]

The original name of this mission referred to the fourth century BCE Chinese astronomer Gan De, who made early planetary observations and reputedly first observed the Galilean moons with the unaided eye.^[5]

Background[edit]

On October 15, 2003, CNSA launched China's first independent crewed orbital mission; subsequently it prosecuted successful robotic lunar orbital missions (Chang'e 1 and Chang'e 2) and a robotic lunar lander/rover mission (Chang'e 3). In the hope of building upon these achievements, CNSA began to contemplate more ambitious interplanetary missions in the 2020s and beyond. In 2018, Pei Zhaoyu, the deputy director of CNSA's Lunar Exploration and Space Program Center stated that China was planning to conduct four major interplanetary missions before the end of the 2020s;^[10] the four missions include a mission to Mars (Tianwen-1), a main-belt comet and asteroid sample-return mission (Tianwen-2), a Mars sample-return mission (Tianwen-3), and a Jupiter system mission. As of early 2021, the aforementioned JCO and JSO mission profiles are competing to be realized as the Tianwen-4 Jupiter system mission.^[5]

Possible mission timeline[edit]

One possible Earth-Jupiter mission trajectory and timeline was presented at the 2020 General Assembly meetings of the EGU.^[11] Under this scenario, the Tianwen-4 probe would launch in September 2029,^[2] conduct a Venus fly-by six months later in April 2030,^[a] then proceed to encounter Earth twice (the first encounter occurring in February 2031^[b] and the second in May 2033^[c]). Before arriving at Jupiter, the sub-probe will separate from the main probe and continue towards Uranus for a flyby in March 2045.^[1]^[3]

The main probe will enter Jupiter orbit in December 2035. After 1 or 2 braking passes, the probe will stay in a large elliptical orbit around Jupiter with a period of 30 days, making flybys of irregular moons.^[9] It will conduct 10 orbits over about a year before entering its second phase with two gravity assists of Callisto. In February 2038, Tianwen-4 will enter orbit around Callisto with an altitude of 300 km and an orbital period of 17.7 hours, and an impact probe will then be released to impact the surface of Callisto.^[4]^[3]

Mission architecture[edit]

As of 2021, one of the two following mission profiles (JCO and JSO) is likely to resemble the final mission architecture:

Jupiter Callisto Orbiter (JCO)[edit]

JCO would fly by several irregular Jovian satellites before entering a polar orbit around Callisto. This scenario includes a possible lander which, like the Chang’e lunar landers, would provide unprecedented insights into the moon's formation and evolution. Callisto is the outermost of the four Galilean moons. Its interior experiences less heating due to gravity from the other moons and Jupiter. It likely formed with leftover Jupiter material and has sat mostly dormant since, with only asteroid impacts to modify its surface. The moon thus preserves a history of the early Jupiter system and the Solar System at large for a lander to study. Callisto also has a thin atmosphere with small amounts of oxygen, increasing its scientific allure despite being less glamorous than fellow subsurface ocean moons Europa and Ganymede and volatile, active Io. Callisto is also the least challenging Jovian moon to land on. A spacecraft requires less fuel to reach it, and it sits outside Jupiter's intense radiation field. These are rationales that argue for Callisto as the main mission target. JCO also includes a secondary spacecraft that would independently fly towards and encounter with Uranus sometime in the late 2040s.^[5]

Jupiter Systems Observer (JSO)[edit]

JSO would substitute a possible Callisto landing with an in-depth investigation of the Jovian moon Io. The spacecraft would perform several Io flybys, studying how Jupiter's gravity tugs on the moon to power its volcanic activity. JSO would also study the mass, density, dynamics and chemical and isotopic composition of irregular satellites and would provide insights into these unique remnants of Jupiter's formation. As an option, JSO could release one or several small satellites to perform multi-point studies of the dynamics of the Jovian magnetosphere.

At the end of its tour JSO could be sent to orbit the Sun-Jupiter L1 point, where the planet's gravity balances with the Sun's in a way that spacecraft can remain there for long periods of time. From this unique perch where no spacecraft has ever visited, JSO could monitor the solar wind outside of Jupiter's magnetic field, and survey the irregular Jovian moons from afar.^[11]

Mission instruments[edit]

Potential scientific instruments for the Tianwen-4 mission were discussed during a session of the 2020 General Assembly of the European Geosciences Union that took place in May 2020. The possible instruments were categorized into four payload packages designed to address the two main goals of the mission: answering questions on the formation and current "workings"^[d] of the Jovian system (the actual instruments selected would depend on whether JCO or JSO is selected as the mission profile.) The four payload packages are: (A) plasma and dust analyzers, (B) multi-wavelength spectroscopic instruments, (C) geology/glaciology/geochemistry analyzers, and (D) radio/optical links and radio science instruments.^[11]

Plasma and dust analyzers package[edit]

Thermal plasma spectrometer (100 eV to 100 keV)
High-energy charged particle detector and energetic neutral atom (ENA) analyzer
Ion and neutral mass spectrometer
Magnetometer
Radio and plasma wave spectrometer
Cosmic dust detector with mass spectrometer

Multi-wavelength imaging/spectroscopy package[edit]

Visible-wavelength imaging camera
Near-infrared imager/spectrometer
Far-infrared/submillimeter wave radiometer/spectrometer
Ultra-violet imager/spectrometer

Geology/glaciology/geochemistry analyzers package[edit]

High-mass resolution and large mass range mass spectrometer

(fed-by sampling system for ice surface and by pyrolyser [for refractory component])

Radio + optical link + radio science package[edit]

Transmission/reception radio link to Earth for Doppler tracking and occultation measurements
Inter-platform radio links for additional Doppler tracking and occultation measurements
"PRIDE" astrometry experiment (Very-long-baseline interferometry tracking of each flight element)
Altimeter (with meter-level accuracy)

Notes[edit]

^ The closest-approach to Venus is anticipated to be about 6,011 kilometers

^ Earth closest-approach: 5,482 kilometers

^ Earth closest-approach: 1,386 kilometers

^ These involve the Jovian system's energy transfer processes such as the tidal transfer and dissipation of gravitational energy between the planet, moons, the plasma torus, and the entire magnetosphere.

References[edit]

^ ^a ^b 田百义，张磊，周文艳，朱安文 (February 2018). "《木星系及行星际飞越探测的多次借力飞行轨道设计研究》" (in Simplified Chinese). 《航天器工程》. Archived from the original on 2021-10-09. Retrieved 2021-10-09.

^ ^a ^b CNSA Watcher [@CNSAWatcher] (23 December 2023). "Tianwen-4, launching Sept 2029, will journey to Jupiter using Venus & Earth gravity assists. Targeting Jupiter capture by Dec 2035 & a Uranus flyby in March 2045, the mission includes 2 probes, one exploring Jupiter's system and another flying by Uranus" (Tweet) – via Twitter.

^ ^a ^b ^c ^d Andrew Jones (2023-12-21). "China's plans for outer Solar System exploration". The Planetary Society. Retrieved 2023-12-27.

^ ^a ^b 张磊，田百义，周文艳，田岱，朱安文 (2018-02-28). "木星系多目标探测轨道设计研究" (in Simplified Chinese). 航天器工程,2018,27(01)：31-36. Retrieved 2023-01-07.

^ ^a ^b ^c ^d ^e Jones, Andrew (12 January 2021). "Jupiter Mission by China could include Callisto Landing". Planetary.org. Retrieved 1 May 2021.

^ Andrew Jones published (2022-09-22). "China wants to probe Uranus and Jupiter with 2 spacecraft on one rocket". Space.com. Retrieved 2022-09-28.

^ Xu, Lin; Zou, Yongliao; Jia, Yingzhuo (2018). "China's planning for deep space exploration and lunar exploration before 2030" (PDF). Chinese Journal of Space Science. 38 (5): 591–592. Bibcode:2018ChJSS..38..591X. doi:10.11728/cjss2018.05.591. S2CID 256881663.

^ Jones, Andrew (14 July 2017). "Mars, asteroids, Ganymede and Uranus: China's deep space exploration plan to 2030 and beyond". FindChinaInfo. Archived from the original on 1 January 2022. Retrieved 1 May 2021.

^ ^a ^b "China's plans for outer Solar System exploration". EIN Presswire. 21 December 2023. Retrieved 24 January 2024.

^ "China outlines roadmap for deep space exploration – Xinhua | English.news.cn". www.xinhuanet.com. Archived from the original on April 25, 2018. Retrieved 2 May 2021.

^ ^a ^b ^c Blanc, Michel; Wang, Chi; Li, Lei; Li, Mingtao; Wang, Linghua; Wang, Yuming; Wang, Yuxian; Zong, Qiugang; Andre, Nicolas; Mousis, Olivier; Hestroffer, Daniel (2020-05-01). "Gan De: Science Objectives and Mission Scenarios For China's Mission to the Jupiter System". EGU General Assembly Conference Abstracts. 22: 20179. Bibcode:2020EGUGA..2220179B. doi:10.5194/egusphere-egu2020-20179. S2CID 235015121.

External links[edit]

Jupiter

Outline of Jupiter

Geography

Moons

Inner moons

Galilean moons

Irregular moons

Astronomy

General

Trojans

Impact events

Exploration and
orbiting missions

Current	Juno
Past	Cassini–Huygens Galileo project Galileo New Horizons Pioneer program Pioneer 10 Pioneer 11 Ulysses Voyager program Voyager 1 Voyager 2
Future	Jupiter Icy Moons Explorer (2023, en route) Europa Clipper (2024)
Proposed	Laplace-P (2023) Shensuo (2024) Io Volcano Observer (2026) Tianwen-4 (2029) Smara (2030)

v t e Spacecraft missionstoJupiter
Flybys	Pioneer program Pioneer 10 11 Voyager program Voyager 1 2 Ulysses Cassini–Huygens New Horizons
Orbiters	Galileo Juno (active)
Atmospheric probes	Galileo Probe
En route	Jupiter Icy Moons Explorer (JUICE) (2023)
Planned missions	Europa Clipper (2024) Tianwen-4 (2029)
Proposed missions	Shensuo (2020s) Europa Lander (2025) Interstellar Probe (2036)
Cancelled / Concepts	Argo Europa Jupiter System Mission-Laplace Jupiter Europa Orbiter Jupiter Ganymede Orbiter Jupiter Magnetospheric Orbiter Europa Orbiter FIRE Innovative Interstellar Explorer Io Volcano Observer Jovian Europa Orbiter Jupiter Icy Moons Orbiter Laplace-P New Horizons 2 OKEANOS Pioneer H SMARA Trident Tsiolkovsky mission
Related topics	Exploration of Jupiter Atmosphere of Jupiter Magnetosphere of Jupiter Moons of Jupiter Io Exploration Europa Ganymede Callisto Rings of Jupiter Deep Space Network Missions to the outer planets Colonization of the outer Solar System

Uranus

Outline

Geography

Major moons

Astronomy

Discovery

General

Uranus-crossing minor planets

Co-orbitals

Exploration

Past

Voyager 2 (1986 flyby)

Future

Tianwen-4 (2029)

Proposals

Fiction

Category

Future spaceflights

Crewed

2024

Polaris Dawn (July)
SpaceX Crew-9 (August)
Soyuz MS-26 (September)
Axiom Mission 4 (October)
Shenzhou 19 (November)

2025

2026+

Artemis 3 (2026)
Gaganyaan-5
Artemis 4 (2028)
Artemis 5 (2029)
Chinese Crewed Lunar Landing Mission (~2030)

Uncrewed

2024	Biomass Bion-M No.2 (September) Blue Ghost M1 DISHA ESCAPADE (September) Europa Clipper (October) Gaganyaan-1 (July) Gaganyaan-2 GOSAT-GW GSAT-20 Hakuto-R M2 LOXSAT1 IM-2 / Lunar Trailblazer IHP-1 Hera / Milani / Juventas (October) NISAR PROBA-3 (September) SpainSat NG I (November) Türksat 6A (July) VIPER (November)
2025	DESTINY⁺ IMAP / SWFO-L1 (February) Gaganyaan-3 Garatéa-L HTV-X1 IM-3 MetOp-SG Series A MetOp-SG Series B MULA PPE / HALO SMILE Space Rider SPARCS SPHEREx / PUNCH (April) SSC Demo-1 Tianwen-2 (May) TRACERS (April)
2026	ALTIUS / FLEX Chang'e 7 / Rashid 2 IHP-2 ispace M3 LUPEX MMX Nancy Grace Roman Space Telescope (2026–2027) Xuntian PLATO ULTRASAT VOICE
2027	FORUM Luna 26 Superbird-9
2028+	Chang'e 8 (2028) Dragonfly (2028) JASMINE (2028) Luna 27 (2028) MBR Explorer (2028) MSR (2028) NEO Surveyor (2028) Rosalind Franklin rover (2028) SAOCOM-2A (2028) Solar-C EUVST (2028) Tianwen-3 (2028) Venus Orbiter Mission (2028+) ARIEL / Comet Interceptor (2029) DAVINCI (2029) Harmony (2029) Tianwen-4 (2029) Venera-D (2029–2031) VERITAS (2029) Luna 28 (2030) SAOCOM-2B (2030) Spektr-UV (2030) Spektr-M (2030+) EnVision (2031) LiteBIRD (2032) Athena (2035) LISA (2035)
TBA	Europa Lander Janus MOM 2 Nano-JASMINE PETREL TEREX-1 (mid 2020s) Uranus Orbiter and Probe

Recently
launched

Chang'e 6 (3 May)
EarthCARE (28 May)
GOES-U (25 June)

v t e Chinese spacecraft
Earth observation	Double Star (joint with ESA) Fengyun Gaofen FSW Huanjing HY Jilin Shiyan SMMS TanSat Tansuo Tianhui Yaogan Ziyuan
Communication and engineering	Dong Fang Hong FH-1 Apstar APMT Asiasat ChinaSat ChinaStar HKSTG LGSP OlympicSat Shijian Sinosat Tiantong 1 Tsinghua-1 Xiwang 1
Data relay satellite system	Queqiao and Queqiao 2 Tiandu 1 and 2 Tianlian Constellation
Satellite navigation system	BeiDou-1 BeiDou-2 Beidou-3
Astronomical observation	ASO-S CHASE DAMPE GECAM HXMT Kuafu Longjiang-2 Queqiao Lobster Eye Imager for Astronomy Einstein Probe (joint with ESA) SST SVOM Xuntian SMILE
Lunar exploration	Chinese Lunar Exploration Program Chang'e 1 Chang'e 2 Chang'e 3 Yutu Chang'e 5-T1 Chang'e 4 Yutu-2 Chang'e 5 Chang'e 6 Chang'e 7 Chang'e 8
Planetary exploration	Yinghuo-1 Chang'e 2 Tianwen-1 Zhurong Shensuo Tianwen-2 Tianwen-3 Tianwen-4
Microsatellites	Fengniao Xinyan
Future spacecraft in italics.

Chinese space program

Spaceports and landing sites

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Shuguang (cancelled)
CMS (human spaceflight)
Chang'e (lunar exploration)
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Tianwen (interplanetary exploration)

Projects and missions

Science

Planetary science

Chang'e 1 (2007–09)
Chang'e 2 (2010–present)
Yinghuo 1† (2011)
Chang'e 3 (2013–present)
Chang'e 5-T1 (2014–present)
Yutu rover (2013–2016)
Chang'e 4 (2018–present)
Yutu-2 rover (2018–present)
Tianwen-1 (2020–present)
Chang'e 5 (2020–present)
Zhurong rover (2021–present)
Chang'e 6 (2024)
Shensuo (2024)
Tianwen-2 (2025)
Chang'e 7 (2026)
Chang'e 8 (2028)
Tianwen-4 (2029)
Tianwen-3 (2030)

Astronomy and
cosmology

DAMPE (2015–present)
HXMT (2017–present)
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Einstein Probe (2023)
SVOM (2024)
Xuntian (2026)
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Haiyang Series (2002–present)
TanSat (2016–present)
Yaogan Series (2006–present)
Ziyuan Series (CBERS) (1999–present)
SMILE (2025)

Human
spaceflight

Uncrewed expeditions	Shenzhou 1 Shenzhou 2 Shenzhou 3 Shenzhou 4 Shenzhou 8
Crewed expeditions	Shenzhou 5 Shenzhou 6 Shenzhou 7 Shenzhou 9 Shenzhou 10 Shenzhou 11 Shenzhou 12 Shenzhou 13 Shenzhou 14 Shenzhou 15 Shenzhou 16 Shenzhou 17 Shenzhou 18 (List of Chinese astronauts)
Space laboratories and cargos	Tiangong 1 (2011–2018) Tiangong 2 (2016–2019) Tianzhou 1 (2017) Tianzhou 2 (2021) Tianzhou 3 (2021) Tianzhou 4 (2022) Tianzhou 5 (2022) Tianzhou 6 (2023)
Tiangong space station modules	Tianhe (2021–present) Wentian (2022–present) Mengtian (2022–present)