Compare Lunar Orbiters

Pick up to 4 missions to compare side-by-side. State lives in the URL — share the link and the comparison loads exactly as you left it.

Data methodology →

📊 Industry context

Six nations have placed lunar orbiters since 2007 — a 4× increase in 15 years.

Attribute	🇪🇺 SMART-1 (Small Missions for Advanced Research in Technology) Trust: Agency-primaryⓘ Last verified 2026-06-01Remove ×	🇺🇸 Clementine (DSPSE) Deep Space Program Science Experiment Trust: Agency-primaryⓘ Last verified 2026-06-01Remove ×	🇺🇸 Lunar Reconnaissance Orbiter (LRO)Active · Last updated 2026-06-01 Trust: Agency-primaryⓘ Last verified 2026-06-01Remove ×
Agency	ESA	USAF/NASA (BMDO)	NASA
Status	Deorbited	Mission Complete	Active
Mission type	Orbiter	Orbiter	Orbiter
Launch date	2003-09-27	1994-01-25	2009-06-18
End date	2006-09-03	1994-07-20	Active
Orbit	Polar orbit ~300 × 3,000 km (spiraled from GTO over 14 months using ion drive)	Polar elliptical orbit 425 × 2,942 km	Polar low lunar orbit ~50 km (average)
Mass	367 kgas of 2003-09-27^[1]	424 kgas of 1994-01-25^[1]	1,916 kgas of 2009-06-18^[1]Includes Diviner, LOLA, LROC, MiniRF, LAMP, LEND, CRaTER instruments ↑ Heaviest
Instruments	4 instrumentsas of 2003-09-27^[1]AMIE camera, SIR near-IR spectrometer, D-CIXS X-ray spectrometer, XSM X-ray solar monitor	6 cameras + laser ranger + charged particle telescopeas of 1994-01-25^[1]	7 instrumentsas of 2009-06-18^[1] ↑ Most instruments
Key findings	• First ESA lunar orbiter; proved ion propulsion for interplanetary missions • Confirmed calcium, aluminum, silicon, iron distribution using X-ray fluorescence • Near-IR spectrometer mapped pyroxene and plagioclase mineralogy at global scale • Controlled impact in Lacus Excellentiae watched by Earth telescopes	• First complete multispectral map of the Moon at 200–400 m/pixel • Bistatic radar experiment: first indirect evidence for water-ice at south pole • Mapped crustal thickness variations revealing the South Pole–Aitken Basin depth • Demonstrated miniaturized USAF sensor technology in deep space	• High-resolution LROC NAC imagery: 50 cm/pixel lunar surface map • LEND confirmed water-ice deposits in permanently shadowed craters at south pole • LOLA created the highest-resolution global topographic map of any planetary body • Imaged landing sites of all six Apollo missions and recent commercial landers • Measured cosmic radiation environment for future human surface operations
Outcome	ESA's first mission to the Moon and Europe's first use of Hall-effect ion propulsion in deep space. SMART-1 took 14 months to spiral from GTO to lunar orbit using its ion engine, validating technology for future missions. Deliberately impacted the Moon's near side on 3 September 2006.	A USAF/NASA joint mission using miniaturized military sensor technology. Clementine produced the first global multispectral map of the Moon and provided the first indirect evidence for polar water-ice via bistatic radar. A computer malfunction during the planned asteroid flyby phase left it in an unusable orbit.	NASA's comprehensive lunar scout, now 16+ years in orbit. LRO has produced the most detailed maps of the lunar surface ever made, identified water-ice at the poles, and characterized the radiation environment for future crewed missions. Its LROC camera system imaged the Apollo landing sites, Chinese Chang'e landers, and recent commercial missions including IM-1 Odysseus.

Add another (1 slot left)

🇮🇳 Chandrayaan-2 Orbiter+

About this tool

All 11 lunar orbital missions with primary-source citations from NASA, ESA, JAXA, ISRO, CNSA, and NASA NSSDCA. Coverage spans Clementine (1994) through LRO (active 2026). Pure URL state — bookmark or share the link and the comparison reproduces exactly.

📋 What changed recently

Jun 2026Updated KPLO/Danuri status and imagery data released by KARI in early 2026.
Jun 2026Updated LRO total years in operation to 17; revised total images to 1.5 million+.
Apr 2026Added Chandrayaan-2 orbiter mapping coverage update from ISRO's 2025–26 operations report.

Attribute

🇪🇺 SMART-1 (Small Missions for Advanced Research in Technology)

Trust: Agency-primaryⓘ

Last verified 2026-06-01Remove ×

🇺🇸 Clementine (DSPSE)

Deep Space Program Science Experiment

Trust: Agency-primaryⓘ

Last verified 2026-06-01Remove ×

🇺🇸 Lunar Reconnaissance Orbiter (LRO)Active · Last updated 2026-06-01

Trust: Agency-primaryⓘ

Last verified 2026-06-01Remove ×

Agency

ESA

USAF/NASA (BMDO)

NASA

Status

Deorbited

Mission Complete

Active

Mission type

Orbiter

Launch date

2003-09-27

1994-01-25

2009-06-18

End date

2006-09-03

1994-07-20

Active

Orbit

Polar orbit ~300 × 3,000 km (spiraled from GTO over 14 months using ion drive)

Polar elliptical orbit 425 × 2,942 km

Polar low lunar orbit ~50 km (average)

Mass

367 kgas of 2003-09-27^[1]

424 kgas of 1994-01-25^[1]

1,916 kgas of 2009-06-18^[1]Includes Diviner, LOLA, LROC, MiniRF, LAMP, LEND, CRaTER instruments

↑ Heaviest

Instruments

4 instrumentsas of 2003-09-27^[1]AMIE camera, SIR near-IR spectrometer, D-CIXS X-ray spectrometer, XSM X-ray solar monitor

6 cameras + laser ranger + charged particle telescopeas of 1994-01-25^[1]

7 instrumentsas of 2009-06-18^[1]

↑ Most instruments

Key findings

• First ESA lunar orbiter; proved ion propulsion for interplanetary missions
• Confirmed calcium, aluminum, silicon, iron distribution using X-ray fluorescence
• Near-IR spectrometer mapped pyroxene and plagioclase mineralogy at global scale
• Controlled impact in Lacus Excellentiae watched by Earth telescopes

• First complete multispectral map of the Moon at 200–400 m/pixel
• Bistatic radar experiment: first indirect evidence for water-ice at south pole
• Mapped crustal thickness variations revealing the South Pole–Aitken Basin depth
• Demonstrated miniaturized USAF sensor technology in deep space

• High-resolution LROC NAC imagery: 50 cm/pixel lunar surface map
• LEND confirmed water-ice deposits in permanently shadowed craters at south pole
• LOLA created the highest-resolution global topographic map of any planetary body
• Imaged landing sites of all six Apollo missions and recent commercial landers
• Measured cosmic radiation environment for future human surface operations

Outcome

ESA's first mission to the Moon and Europe's first use of Hall-effect ion propulsion in deep space. SMART-1 took 14 months to spiral from GTO to lunar orbit using its ion engine, validating technology for future missions. Deliberately impacted the Moon's near side on 3 September 2006.

A USAF/NASA joint mission using miniaturized military sensor technology. Clementine produced the first global multispectral map of the Moon and provided the first indirect evidence for polar water-ice via bistatic radar. A computer malfunction during the planned asteroid flyby phase left it in an unusable orbit.

NASA's comprehensive lunar scout, now 16+ years in orbit. LRO has produced the most detailed maps of the lunar surface ever made, identified water-ice at the poles, and characterized the radiation environment for future crewed missions. Its LROC camera system imaged the Apollo landing sites, Chinese Chang'e landers, and recent commercial missions including IM-1 Odysseus.