December 23, 2024

NEOMIR: Planetary Defense Mission for Finding Dangerous Asteroids Hidden by Sun

The NEOMIR orbiting observatory will act as an early warning system to spot and keep track of any asteroid coming towards Earth from the Suns instructions. NEOMIR will be positioned in between the Sun and Earth, at the first Lagrange point (L1). Statistically, asteroids this size strike Earth about when every 50-100 years. Asteroids are visible due to the fact that they show the Suns light, which we can identify from Earth. Asteroids crossing the face of the Sun are particularly tough to detect, but from Earth, we are likewise blind to asteroids near the Sun as they are outshone by its glare.

Fallen trees at Tunguska, Imperial Russia, seen in 1929, 15 km from epicenter of aerial blast website, brought on by explosion of a meteor in 1908. Credit: Photo N. A. Setrukov, 1928
The fairly small rock approached Earth from really near the instructions of the Sun, exploding in the environment and producing a shockwave that harmed thousands of buildings, breaking windows and hurting roughly 1500 individuals from flying fragments of glass. It was the biggest asteroid to strike Earth in over a century.
Statistically, asteroids this size strike Earth about when every 50-100 years. Larger asteroids are far less common however– simply ask the dinosaurs– do an excellent offer more damage. These are, thankfully, much easier to find.
Asteroid threat discussed. Credit: ESA, CC BY-SA 3.0 IGO
We have actually discovered practically all asteroids larger than 1 km in size. Small and medium-sized asteroids are more typical, and can still do excellent damage, but alerting times of a couple of days can be enough for local authorities to notify the general public to avoid windows or even to leave an area.
With NEOMIR, well be prepared
Whether its getting ready for a mission to deflect a big asteroid years in advance or offering the information for regional authorities to keep neighborhoods informed of airbursts weeks ahead, ESAs NEOMIR will fill a space in our existing asteroid detection capabilities.
Asteroids are visible due to the fact that they show the Suns light, which we can detect from Earth. The closer they get to the Sun, the harder they are to see. Asteroids crossing the face of the Sun are especially hard to discover, but from Earth, we are likewise blind to asteroids near the Sun as they are outperformed by its glare.
Lagrange points are locations in space where the gravitational pull from the Earth equals the pull from the Sun, and satellites can live with less orbital maintenance than those orbiting Earth or flying out to deep space. Credit: ESA
ESAs approaching NEOMIR objective will be launched into orbit around the first Lagrange point (L1) between the Sun and Earth, staying in the exact same position relative to the 2 bodies. This will provide the telescope a view of asteroids that might come towards the Earth from the instructions of the Sun.
Being situated beyond Earths distorting atmosphere and with a telescope observing in infrared light, NEOMIR will keep an eye on a close ring around the Sun that is impossible to observe from the ground. The mission will spot asteroids passing in between Earth and the Sun– any that present a threat and that we can not presently see will need to travel through this ring.
Our vibrantly burning Sun, photographed here on an Antarctic summer season day by ESA-sponsored medical physician Stijn Thoolen at Concordia research study station. Credit: ESA/IPEV/PNRA– S. Thoolen
By making observations in the infrared part of the light spectrum, NEOMIR will identify the heat discharged by asteroids themselves, which isnt muffled by sunlight. This thermal emission is taken in by Earths atmosphere, however from area, NEOMIR will be able to see closer to the Sun than we can currently from Earth.
Asteroids 20 meters (66 feet) and bigger that are heading towards Earth should be found by NEOMIR at least 3 weeks in advance. In the worst-case scenario, in which the asteroid is spotted passing near the spacecraft, we would get a minimum of 3 days caution– the fastest the asteroid could move from L1 to Earth.
Current status
Information of the Space Safety Programs NEOMIR mission are currently being expanded and it is planned to be launched around 2030 with an Ariane 6-2 rocket.
Artists view of the setup of Ariane 6 using 4 boosters (A64). Credit: ESA– D. Ducros
An initial study to assess the expediency of the NEOMIR objective was performed by ESAs Concurrent Design Facility in the Netherlands, in 2021. The research study concentrated on specifying a mission that would complement NASAs NEO Surveyor objective. The US-funded mission needs to meet the US Congress mandate to find 90% of near-Earth objects bigger than 140 meters (460 feet) in diameter, while NEOMIR is designed to focus on imminent impactors of any size.
NEOMIR is currently early objective study phase. It will require a half-meter telescope with a large, fixed focal plane, as well as two infrared channels covering light in the 5-10 micrometer waveband.
NASAs DART spacecraft clashed with the smaller body of the Didymos binary asteroid system in September 2022. ESAs Hera objective will survey Didymoon post-impact and assess how its orbit has actually been changed by the accident, to turn this one-off experiment into a convenient planetary defense technique. Credit: ESA– ScienceOffice.org.
The required detector technologies and associated electronic devices for this unique objective are presently under development. Industrial research and development projects are prepared as supporting activities in parallel.
The requirements will be to deliver a similar efficiency to the NEO Surveyor detectors, i.e., Teledynes HxRG, which remain in use in the James Webb Space Telescope (NIRSpec) and ESAs Euclid (NISP) and Ariel objectives, although at much shorter wavelengths.

The NEOMIR orbiting observatory will serve as an early caution system to keep track of any asteroid and discover coming towards Earth from the Suns instructions. NEOMIR will be placed in between the Sun and Earth, at the very first Lagrange point (L1). Utilizing a high-performance infrared detector, it will discover near-Earth objects with a diameter of over 20 meters at least 3 weeks in advance of potential Earth impact. Credit: ESA/ Pierre Carril
Asteroids, like stars, only come out at night. Hidden in the glare of our Sun are an unknown variety of asteroids on courses we can not track, many of which could be heading for Earth, and we just dont understand it.
The European Space Agencys (ESA) planned NEOMIR mission will be located in between Earth and the Sun and will act as an early warning system for asteroids 20 meters and larger that can not be seen from the ground.
Predicting Chelyabinsk
Nobody saw the Chelyabinsk meteor of February 15, 2013, coming. Simply after daybreak on a calm and sunny winter seasons day, a 20-meter (66-foot) asteroid struck the atmosphere over the Ural Mountains in Russia, at a speed of more than 18 km/s (40,000 miles per hour).