Canadian contribution to private lunar lander could lead to a telescope on the moon
Odysseus lander touched down on the lunar south pole after a nail-biting few days
AND PROMPTLY FELL OVER WITH A BROKEN STRUT
Bob McDonald · CBC Radio · Posted: Feb 23, 2024
This is a proof of concept study to determine whether the south pole of the moon is a good place for an astronomical observatory. It will also be a test of whether images from space can be broadcast back to Earth, which is very low on the horizon from the lunar polar regions.
The camera is named ILO-X after the International Lunar Observatory Association, a non-profit enterprise incorporated in Hawaii that promotes the concept of building astronomical observatories on the moon.
Part of the camera system designed by Canadian company Canadensys, which hopes to capture the first images of the Milky Way galactic centre from the surface of the Moon. (Canadensys)
Astronomers would be delighted to have an observatory on the moon because it provides the clear, airless view of the universe that you get from a space telescope, with the added benefit of being on land. That means there are no size limits, and in astronomy, size matters.
While the Hubble and James Webb space telescopes have returned astounding images, those instruments were limited by the space available in the nose cone of a rocket. In fact, Webb had to be folded up to take the ride to space.
A telescope on the moon could be built much larger and provide even finer details of the universe. An observatory on the far side of the moon would be shielded from noisy radio chatter bouncing around Earth.
Bob McDonald · CBC Radio · Posted: Feb 23, 2024
This image provided by Intuitive Machines shows its Odysseus lunar lander over the near side of the moon before it descended successfully to the moon's surface. (Intuitive Machines/The Associated Press)
The first private spacecraft to softly land on the moon carries a Canadian instrument that will test the possibility of building an observatory at the Lunar south pole.
The phone booth-sized lander by Intuitive Machines, named Odysseus, launched on Feb. 15 and touched down on Thursday near a small impact crater about 300 kilometers from the moon's south pole.
It was a stressful event with navigation and communication issues, but 15 nail-biting minutes after it landed, mission control confirmed that they were receiving a faint but steady signal from the spacecraft.
"What we can confirm, without a doubt, is our equipment is on the surface of the moon and we are transmitting," said Intuitive Machines mission director Tim Crain.
"Houston, Odysseus has found his new home."
WATCH | NASA's livestream of the Odysseus lunar landing:
Odysseus carries a suite of twelve instruments, six of which are from NASA and the rest from commercial companies.
The Canadian component, built by space systems company Canadensys, is a miniaturized dual camera with one wide-field lens and one telephoto lens, that will point upwards to take images of the Milky Way Galaxy, as well as other astronomical objects including the Earth.
The first private spacecraft to softly land on the moon carries a Canadian instrument that will test the possibility of building an observatory at the Lunar south pole.
The phone booth-sized lander by Intuitive Machines, named Odysseus, launched on Feb. 15 and touched down on Thursday near a small impact crater about 300 kilometers from the moon's south pole.
It was a stressful event with navigation and communication issues, but 15 nail-biting minutes after it landed, mission control confirmed that they were receiving a faint but steady signal from the spacecraft.
"What we can confirm, without a doubt, is our equipment is on the surface of the moon and we are transmitting," said Intuitive Machines mission director Tim Crain.
"Houston, Odysseus has found his new home."
WATCH | NASA's livestream of the Odysseus lunar landing:
Odysseus carries a suite of twelve instruments, six of which are from NASA and the rest from commercial companies.
The Canadian component, built by space systems company Canadensys, is a miniaturized dual camera with one wide-field lens and one telephoto lens, that will point upwards to take images of the Milky Way Galaxy, as well as other astronomical objects including the Earth.
This is a proof of concept study to determine whether the south pole of the moon is a good place for an astronomical observatory. It will also be a test of whether images from space can be broadcast back to Earth, which is very low on the horizon from the lunar polar regions.
The camera is named ILO-X after the International Lunar Observatory Association, a non-profit enterprise incorporated in Hawaii that promotes the concept of building astronomical observatories on the moon.
Part of the camera system designed by Canadian company Canadensys, which hopes to capture the first images of the Milky Way galactic centre from the surface of the Moon. (Canadensys)
Astronomers would be delighted to have an observatory on the moon because it provides the clear, airless view of the universe that you get from a space telescope, with the added benefit of being on land. That means there are no size limits, and in astronomy, size matters.
While the Hubble and James Webb space telescopes have returned astounding images, those instruments were limited by the space available in the nose cone of a rocket. In fact, Webb had to be folded up to take the ride to space.
A telescope on the moon could be built much larger and provide even finer details of the universe. An observatory on the far side of the moon would be shielded from noisy radio chatter bouncing around Earth.
This image from video provided by SpaceX via NASA TV shows Intuitive Machines' lunar lander separating from the rocket's upper stage and heading toward the moon. (SpaceX/NASA TV/The Associated Press)
High-tech industries across the country are building precision scientific instruments and sending them to space. And Canadian scientists have been doing this from the very start of the space race, with our first satellite Alouette One launched in 1962. That made us the third country in space after the Soviet Union and America.
Canada is best known for its astronauts and robotic Canadarm but we have also built satellites such as the Radarsat constellation. We also flew instruments to Mars, including one that measures cloud cover and another that analyzes the chemistry of rocks. Canadian instruments are also part of the James Webb Space Telescope.
We are a space-faring country, but we don't make a lot of noise about it. Rather than build big expensive rockets, we join with other countries and go along for the ride — a much cheaper way to explore space. While our instruments may be small, they still make significant contributions.
Perhaps our little camera on this mission could be a small step that leads to a giant leap for astronomy.
High-tech industries across the country are building precision scientific instruments and sending them to space. And Canadian scientists have been doing this from the very start of the space race, with our first satellite Alouette One launched in 1962. That made us the third country in space after the Soviet Union and America.
Canada is best known for its astronauts and robotic Canadarm but we have also built satellites such as the Radarsat constellation. We also flew instruments to Mars, including one that measures cloud cover and another that analyzes the chemistry of rocks. Canadian instruments are also part of the James Webb Space Telescope.
We are a space-faring country, but we don't make a lot of noise about it. Rather than build big expensive rockets, we join with other countries and go along for the ride — a much cheaper way to explore space. While our instruments may be small, they still make significant contributions.
Perhaps our little camera on this mission could be a small step that leads to a giant leap for astronomy.
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