LIVE MONDAY: Dark comets mystery with Aster Taylor


Is Earth surrounded by potentially dangerous dark comets? These mysterious rocky bodies combine characteristics of both asteroids and comets. But how many dark comets are out there? And do they pose a threat to Earth? Find out at 12:15 p.m. CT (17:15 UTC) on Monday, October 28 when EarthSky’s Dave Adalian chats live with astronomer and dark comet discoverer Aster G. Taylor.

The University of Michigan posted this original article on July 10, 2024. Edits by EarthSky.

Dark comets discoverer to join EarthSky live Monday

At 12:15 p.m. CDT (17:15 UTC) on Monday, October 28, dark comet discoverer Aster Taylor will join EarthSky’s Dave Adalian for a live chat. Head over to YouTube to watch the trailer now. While you’re there, turn on notifications and share the link.

Meanwhile, to find out all about Taylor’s discovery read the story below. Then ask your dark comet questions right now. Put them in the chat today … Get your answers during the stream!

Dark comets might surround the Earth

Up to 60% of near-Earth objects could be dark comets. Dark comets are mysterious asteroids that orbit the sun in our solar system. They likely contain or previously contained ice and could have been a route for delivering water to Earth. That’s according to Aster Taylor of the University of Michigan, lead author of a new study published in the peer-reviewed journal Icarus on July 6, 2024.

The findings suggest that asteroids in the asteroid belt – a region between Jupiter and Mars that contains much of the solar system’s rocky asteroids – have subsurface ice. According to Taylor, scientists have suspected this since the 1980s. The study also shows a potential pathway for delivering ice into the near-Earth solar system, Taylor says. How Earth got its water is a longstanding question.

We don’t know if these dark comets delivered water to Earth. We can’t say that. But we can say that there is still debate over how exactly the Earth’s water got here. The work we’ve done has shown that this is another pathway to get ice from somewhere in the rest of the solar system to the Earth’s environment.

The research further suggests that one large object may come from the Jupiter-family comets, comets whose orbits take them close to the planet Jupiter.

A comet mixed with an asteroid

Dark comets are a bit of a mystery, because they combine characteristics of both asteroids and comets. Asteroids are rocky bodies with no ice that orbit closer to the sun, typically within what’s called the ice line. This means they’re close enough to the sun for any ice the asteroid may have been carrying to sublimate, or change from solid ice directly into gas.

Comets are icy bodies that show a fuzzy coma, a cloud that often surrounds a comet. Sublimating ice carries dust along with it, creating the cloud. Additionally, comets typically have slight accelerations propelled not by gravity, but by the sublimation of ice, called nongravitational accelerations.

The study examined seven dark comets and estimates that between 0.5% and 60% of all near-Earth objects could be dark comets, which do not have comae but do have nongravitational accelerations. The researchers also suggest that these dark comets likely come from the asteroid belt. And because these dark comets have nongravitational accelerations, the study findings suggest asteroids in the asteroid belt contain ice. Taylor said:

We think these objects came from the inner and/or outer main asteroid belt, and the implication of that is that this is another mechanism for getting some ice into the inner solar system. There may be more ice in the inner main belt than we thought. There may be more objects like this out there. This could be a significant fraction of the nearest population. We don’t really know, but we have many more questions because of these findings.

Dark comets: An irregular, rocky object flying through space with the Milky Way behind.
A new study from the University of Michigan said dark comets may make up 60% of near-Earth objects. Image via University of Michigan/ Nicole Smith/ Made with Midjourney.

Dark comets come from the asteroid belt

In previous work, a team of researchers including Taylor identified nongravitational accelerations on a set of near-Earth objects, naming them dark comets. They determined the dark comets’ nongravitational accelerations are likely the result of small amounts of sublimating ice.

In the current work, Taylor and colleagues wanted to discover where the dark comets came from. The researchers said:

Near-Earth objects don’t stay on their current orbits very long, because the near-Earth environment is messy. They only stay in the near-Earth environment for around 10 million years. Because the solar system is much older than that, that means near-Earth objects are coming from somewhere … that we’re constantly being fed near-Earth objects from another, much larger source.

To determine the origin of this dark comet population, Taylor and co-authors created dynamical models that assigned nongravitational accelerations to objects from different populations. Then, they modeled a path these objects would follow given the assigned nongravitational accelerations over a period of 100,000 years. The researchers observed many of these objects ended up where dark comets are today. And they found that out of all potential sources, the main asteroid belt is the most likely place of origin.

But not all …

One of the dark comets – called 2003 RM – passes in an elliptical orbit close to Earth, then out to Jupiter and back past Earth. 2003 RM follows the same path that would be expected from a Jupiter-family comet. That is, its position is consistent with a comet that was knocked inward from its orbit.

Ice in the asteroid belt

Meanwhile, the study finds the rest of the dark comets likely came from the inner band of the asteroid belt. Since the dark comets likely have ice, this shows ice is present in the inner main belt.

Breaking into pieces

Then, the researchers applied a previously suggested theory to their population of dark comets to determine why the objects are so small and quickly rotating. Comets are rocky structures bound together by ice. Picture a dirty ice cube, Taylor said. Once they get bumped within the solar system’s ice line, that ice starts to off-gas. This causes the object’s acceleration. But it can also cause the object to spin quite fast … fast enough for the object to break apart. Taylor said:

These pieces will also have ice on them, so they will also spin out faster and faster until they break into more pieces. You can just keep doing this as you get smaller and smaller and smaller. What we suggest is that the way you get these small, fast rotating objects is you take a few bigger objects and break them into pieces.

As this happens, the objects continue to lose their ice, get even smaller, and rotate even more rapidly.

The researchers believe that while the larger dark comet, 2003 RM, was likely a larger object that got kicked out of the outer main belt of the asteroid belt, the six other objects they were examining likely came from the inner main belt and were made by an object that had gotten knocked inward and then broke apart.

Bottom line: Dark comets are icy bodies that likely come from the inner band of the asteroid belt. Approximately 60% of near-Earth objects may be dark comets.

Source: The dynamical origins of the dark comets and a proposed evolutionary track

Via University of Michigan

The post LIVE MONDAY: Dark comets mystery with Aster Taylor first appeared on EarthSky.



from EarthSky https://ift.tt/DoPOjys

Is Earth surrounded by potentially dangerous dark comets? These mysterious rocky bodies combine characteristics of both asteroids and comets. But how many dark comets are out there? And do they pose a threat to Earth? Find out at 12:15 p.m. CT (17:15 UTC) on Monday, October 28 when EarthSky’s Dave Adalian chats live with astronomer and dark comet discoverer Aster G. Taylor.

The University of Michigan posted this original article on July 10, 2024. Edits by EarthSky.

Dark comets discoverer to join EarthSky live Monday

At 12:15 p.m. CDT (17:15 UTC) on Monday, October 28, dark comet discoverer Aster Taylor will join EarthSky’s Dave Adalian for a live chat. Head over to YouTube to watch the trailer now. While you’re there, turn on notifications and share the link.

Meanwhile, to find out all about Taylor’s discovery read the story below. Then ask your dark comet questions right now. Put them in the chat today … Get your answers during the stream!

Dark comets might surround the Earth

Up to 60% of near-Earth objects could be dark comets. Dark comets are mysterious asteroids that orbit the sun in our solar system. They likely contain or previously contained ice and could have been a route for delivering water to Earth. That’s according to Aster Taylor of the University of Michigan, lead author of a new study published in the peer-reviewed journal Icarus on July 6, 2024.

The findings suggest that asteroids in the asteroid belt – a region between Jupiter and Mars that contains much of the solar system’s rocky asteroids – have subsurface ice. According to Taylor, scientists have suspected this since the 1980s. The study also shows a potential pathway for delivering ice into the near-Earth solar system, Taylor says. How Earth got its water is a longstanding question.

We don’t know if these dark comets delivered water to Earth. We can’t say that. But we can say that there is still debate over how exactly the Earth’s water got here. The work we’ve done has shown that this is another pathway to get ice from somewhere in the rest of the solar system to the Earth’s environment.

The research further suggests that one large object may come from the Jupiter-family comets, comets whose orbits take them close to the planet Jupiter.

A comet mixed with an asteroid

Dark comets are a bit of a mystery, because they combine characteristics of both asteroids and comets. Asteroids are rocky bodies with no ice that orbit closer to the sun, typically within what’s called the ice line. This means they’re close enough to the sun for any ice the asteroid may have been carrying to sublimate, or change from solid ice directly into gas.

Comets are icy bodies that show a fuzzy coma, a cloud that often surrounds a comet. Sublimating ice carries dust along with it, creating the cloud. Additionally, comets typically have slight accelerations propelled not by gravity, but by the sublimation of ice, called nongravitational accelerations.

The study examined seven dark comets and estimates that between 0.5% and 60% of all near-Earth objects could be dark comets, which do not have comae but do have nongravitational accelerations. The researchers also suggest that these dark comets likely come from the asteroid belt. And because these dark comets have nongravitational accelerations, the study findings suggest asteroids in the asteroid belt contain ice. Taylor said:

We think these objects came from the inner and/or outer main asteroid belt, and the implication of that is that this is another mechanism for getting some ice into the inner solar system. There may be more ice in the inner main belt than we thought. There may be more objects like this out there. This could be a significant fraction of the nearest population. We don’t really know, but we have many more questions because of these findings.

Dark comets: An irregular, rocky object flying through space with the Milky Way behind.
A new study from the University of Michigan said dark comets may make up 60% of near-Earth objects. Image via University of Michigan/ Nicole Smith/ Made with Midjourney.

Dark comets come from the asteroid belt

In previous work, a team of researchers including Taylor identified nongravitational accelerations on a set of near-Earth objects, naming them dark comets. They determined the dark comets’ nongravitational accelerations are likely the result of small amounts of sublimating ice.

In the current work, Taylor and colleagues wanted to discover where the dark comets came from. The researchers said:

Near-Earth objects don’t stay on their current orbits very long, because the near-Earth environment is messy. They only stay in the near-Earth environment for around 10 million years. Because the solar system is much older than that, that means near-Earth objects are coming from somewhere … that we’re constantly being fed near-Earth objects from another, much larger source.

To determine the origin of this dark comet population, Taylor and co-authors created dynamical models that assigned nongravitational accelerations to objects from different populations. Then, they modeled a path these objects would follow given the assigned nongravitational accelerations over a period of 100,000 years. The researchers observed many of these objects ended up where dark comets are today. And they found that out of all potential sources, the main asteroid belt is the most likely place of origin.

But not all …

One of the dark comets – called 2003 RM – passes in an elliptical orbit close to Earth, then out to Jupiter and back past Earth. 2003 RM follows the same path that would be expected from a Jupiter-family comet. That is, its position is consistent with a comet that was knocked inward from its orbit.

Ice in the asteroid belt

Meanwhile, the study finds the rest of the dark comets likely came from the inner band of the asteroid belt. Since the dark comets likely have ice, this shows ice is present in the inner main belt.

Breaking into pieces

Then, the researchers applied a previously suggested theory to their population of dark comets to determine why the objects are so small and quickly rotating. Comets are rocky structures bound together by ice. Picture a dirty ice cube, Taylor said. Once they get bumped within the solar system’s ice line, that ice starts to off-gas. This causes the object’s acceleration. But it can also cause the object to spin quite fast … fast enough for the object to break apart. Taylor said:

These pieces will also have ice on them, so they will also spin out faster and faster until they break into more pieces. You can just keep doing this as you get smaller and smaller and smaller. What we suggest is that the way you get these small, fast rotating objects is you take a few bigger objects and break them into pieces.

As this happens, the objects continue to lose their ice, get even smaller, and rotate even more rapidly.

The researchers believe that while the larger dark comet, 2003 RM, was likely a larger object that got kicked out of the outer main belt of the asteroid belt, the six other objects they were examining likely came from the inner main belt and were made by an object that had gotten knocked inward and then broke apart.

Bottom line: Dark comets are icy bodies that likely come from the inner band of the asteroid belt. Approximately 60% of near-Earth objects may be dark comets.

Source: The dynamical origins of the dark comets and a proposed evolutionary track

Via University of Michigan

The post LIVE MONDAY: Dark comets mystery with Aster Taylor first appeared on EarthSky.



from EarthSky https://ift.tt/DoPOjys

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