Wait. A brown dwarf hotter than our sun?


Brown dwarf: Brownish sphere with dark stripes and bright star and galaxy in background.
View larger. | Artist’s illustration of a brown dwarf orbiting a white dwarf star. White dwarfs are evolved, collapsed stars. But brown dwarfs aren’t stars in the usual sense. They’re sometimes called “failed stars.” Image via NOIRLab/ NSF/ AURA/ P. Marenfeld/ William Pendrill.

A brown dwarf isn’t a planet or a star. Brown dwarfs are more massive than Jupiter, the biggest gas giant planet in our solar system. But brown dwarfs are less massive than the smallest stars. They’re not massive enough to spark thermonuclear reactions in their cores, which are what enable stars to shine. So brown dwarfs are sometimes called failed stars. And they’re typically cool in contrast to stars, cooler than our sun. But this month (August 2023), astronomers reported a new hot Jupiter-like brown dwarf, the hottest found so far. Weirdly, this failed star is hotter than our sun.

Scientists at the Weizmann Institute of Science in Israel reported the discovery on August 14, 2023.

But why is it so hot? The scientists explored the reason in a new paper, published in the peer-reviewed journal Nature Astronomy on August 14, 2023. A free preprint is also available on arXiv.

Why is the brown dwarf hot?

The brown dwarf orbits a white dwarf star. The white dwarf is called WD 0032–317. This odd double system – only the 13th brown dwarf/white dwarf binary discovered so far – is located some 1,400 light-years from Earth.

The secret to the brown dwarf being so hot is that it orbits closely with the white dwarf.

It orbits closely enough to be tidally locked with the white dwarf, much as our moon is tidally locked to Earth. In other words, one side of the brown dwarf always faces the white dwarf star.

So the brown dwarf has a permanent day side and night side. And that fact is the key to its high surface temperatures. The day side of the brown dwarf has an estimated temperature ranging from 7,250 to 9,800 Kelvin (6,900 to 9,500 Celsius). That makes it as hot as an A-type star. It’s also about 2,000 degrees hotter than the surface of our sun.

By contrast, the temperature of the night side is significantly lower, from 1,300 to 3,000 K (1,000 to 2,700 C).

A perfect laboratory

Na’ama Hallakoun at the Weizmann Institute of Science is the lead author of the new paper. She said:

We’ve identified a star-orbiting hot Jupiter-like object that is the hottest ever found, about 2,000 degrees hotter than the surface of the sun.

Most hot Jupiters are difficult to study because they’re obscured by the glare of their stars. But this one is easier because it’s quite large compared to its host star, and the star itself is 10,000 times fainter than usual. Hallakoun said:

This makes it a perfect laboratory for future studies of hot Jupiters’ extreme conditions.

An unusual binary system

Interestingly, both objects in this binary system are called dwarfs. But they are very different types of objects.

A white dwarf is technically a star. It’s an evolved star, what remains of a former sunlike star. A white dwarf star has depleted of its nuclear fuel, so it can no longer shine as our sun and other stars do. It’s essentially the hot, white core of a star.

If a planet, or brown dwarf, for example, gets too close to its star, the star’s gravity can rip it apart. In this case, however, the brown dwarf is too dense to be ripped apart. Hallakoun stated:

Stars’ gravity can cause objects that get too close to break apart. But this brown dwarf is dense, with 80 times the mass of Jupiter squeezed into the size of Jupiter. This allows it to survive intact and form a stable, binary system.

Large planet with striped clouds close to a big, bright star.
Hot Jupiters are Jupiter-like exoplanets that orbit very close to their stars, as in this artist’s illustration. The newly discovered brown dwarf is similar to a hot Jupiter but is hotter than any hot Jupiters previously found. Image via ESO/ L.Calçada/ M.Kornmesser/ NASA.

Clues about planetary atmospheres

This newly discovered brown dwarf provides a unique opportunity to learn more about planetary atmospheres, researchers say. Specifically, it provides insight into the effects of extreme ultraviolet radiation. In this case, the radiation is coming to the brown dwarf from the white dwarf star. The radiation can cause the gas that composes the brown dwarf to evaporate. It can break the molecules making up the brown dwarf apart. As Hallakoun explained:

Merely one million years since the formation of the white dwarf in this system – a minuscule amount of a time on the astronomical scale – we have gotten a rare glimpse into the early days of this kind of compact binary system.

Hot Jupiters are the antithesis of habitable planets; they are dramatically inhospitable places for life. Future high-resolution spectroscopic observations of this hot Jupiter-like system – ideally made with NASA’s new James Webb Space Telescope – may reveal how hot, highly irradiated conditions impact atmospheric structure, something that could help us understand exoplanets elsewhere in the universe.

The results will help scientists better understand the similarities and differences between exotic worlds like brown dwarfs and hot Jupiters. Both are unlike any planets or other bodies in our own solar system, making them exciting objects of study for astronomers.

Bottom line: Astronomers have discovered a brown dwarf that is similar to a hot Jupiter exoplanet. It is hotter than any hot Jupiter seen before, even hotter than our sun.

Source: An irradiated-Jupiter analogue hotter than the sun

Source (preprint): An irradiated-Jupiter analogue hotter than the sun

Via Weizmann Institute of Science

Read more: What are brown dwarfs?

Read more: The unexpected, exotic characteristics of hot Jupiters

The post Wait. A brown dwarf hotter than our sun? first appeared on EarthSky.



from EarthSky https://ift.tt/qVGCQBs
Brown dwarf: Brownish sphere with dark stripes and bright star and galaxy in background.
View larger. | Artist’s illustration of a brown dwarf orbiting a white dwarf star. White dwarfs are evolved, collapsed stars. But brown dwarfs aren’t stars in the usual sense. They’re sometimes called “failed stars.” Image via NOIRLab/ NSF/ AURA/ P. Marenfeld/ William Pendrill.

A brown dwarf isn’t a planet or a star. Brown dwarfs are more massive than Jupiter, the biggest gas giant planet in our solar system. But brown dwarfs are less massive than the smallest stars. They’re not massive enough to spark thermonuclear reactions in their cores, which are what enable stars to shine. So brown dwarfs are sometimes called failed stars. And they’re typically cool in contrast to stars, cooler than our sun. But this month (August 2023), astronomers reported a new hot Jupiter-like brown dwarf, the hottest found so far. Weirdly, this failed star is hotter than our sun.

Scientists at the Weizmann Institute of Science in Israel reported the discovery on August 14, 2023.

But why is it so hot? The scientists explored the reason in a new paper, published in the peer-reviewed journal Nature Astronomy on August 14, 2023. A free preprint is also available on arXiv.

Why is the brown dwarf hot?

The brown dwarf orbits a white dwarf star. The white dwarf is called WD 0032–317. This odd double system – only the 13th brown dwarf/white dwarf binary discovered so far – is located some 1,400 light-years from Earth.

The secret to the brown dwarf being so hot is that it orbits closely with the white dwarf.

It orbits closely enough to be tidally locked with the white dwarf, much as our moon is tidally locked to Earth. In other words, one side of the brown dwarf always faces the white dwarf star.

So the brown dwarf has a permanent day side and night side. And that fact is the key to its high surface temperatures. The day side of the brown dwarf has an estimated temperature ranging from 7,250 to 9,800 Kelvin (6,900 to 9,500 Celsius). That makes it as hot as an A-type star. It’s also about 2,000 degrees hotter than the surface of our sun.

By contrast, the temperature of the night side is significantly lower, from 1,300 to 3,000 K (1,000 to 2,700 C).

A perfect laboratory

Na’ama Hallakoun at the Weizmann Institute of Science is the lead author of the new paper. She said:

We’ve identified a star-orbiting hot Jupiter-like object that is the hottest ever found, about 2,000 degrees hotter than the surface of the sun.

Most hot Jupiters are difficult to study because they’re obscured by the glare of their stars. But this one is easier because it’s quite large compared to its host star, and the star itself is 10,000 times fainter than usual. Hallakoun said:

This makes it a perfect laboratory for future studies of hot Jupiters’ extreme conditions.

An unusual binary system

Interestingly, both objects in this binary system are called dwarfs. But they are very different types of objects.

A white dwarf is technically a star. It’s an evolved star, what remains of a former sunlike star. A white dwarf star has depleted of its nuclear fuel, so it can no longer shine as our sun and other stars do. It’s essentially the hot, white core of a star.

If a planet, or brown dwarf, for example, gets too close to its star, the star’s gravity can rip it apart. In this case, however, the brown dwarf is too dense to be ripped apart. Hallakoun stated:

Stars’ gravity can cause objects that get too close to break apart. But this brown dwarf is dense, with 80 times the mass of Jupiter squeezed into the size of Jupiter. This allows it to survive intact and form a stable, binary system.

Large planet with striped clouds close to a big, bright star.
Hot Jupiters are Jupiter-like exoplanets that orbit very close to their stars, as in this artist’s illustration. The newly discovered brown dwarf is similar to a hot Jupiter but is hotter than any hot Jupiters previously found. Image via ESO/ L.Calçada/ M.Kornmesser/ NASA.

Clues about planetary atmospheres

This newly discovered brown dwarf provides a unique opportunity to learn more about planetary atmospheres, researchers say. Specifically, it provides insight into the effects of extreme ultraviolet radiation. In this case, the radiation is coming to the brown dwarf from the white dwarf star. The radiation can cause the gas that composes the brown dwarf to evaporate. It can break the molecules making up the brown dwarf apart. As Hallakoun explained:

Merely one million years since the formation of the white dwarf in this system – a minuscule amount of a time on the astronomical scale – we have gotten a rare glimpse into the early days of this kind of compact binary system.

Hot Jupiters are the antithesis of habitable planets; they are dramatically inhospitable places for life. Future high-resolution spectroscopic observations of this hot Jupiter-like system – ideally made with NASA’s new James Webb Space Telescope – may reveal how hot, highly irradiated conditions impact atmospheric structure, something that could help us understand exoplanets elsewhere in the universe.

The results will help scientists better understand the similarities and differences between exotic worlds like brown dwarfs and hot Jupiters. Both are unlike any planets or other bodies in our own solar system, making them exciting objects of study for astronomers.

Bottom line: Astronomers have discovered a brown dwarf that is similar to a hot Jupiter exoplanet. It is hotter than any hot Jupiter seen before, even hotter than our sun.

Source: An irradiated-Jupiter analogue hotter than the sun

Source (preprint): An irradiated-Jupiter analogue hotter than the sun

Via Weizmann Institute of Science

Read more: What are brown dwarfs?

Read more: The unexpected, exotic characteristics of hot Jupiters

The post Wait. A brown dwarf hotter than our sun? first appeared on EarthSky.



from EarthSky https://ift.tt/qVGCQBs

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