Astronomers find 8 new super-hot stars


8 new super-hot stars: Star field with 2 insets, showing location and close-up of hot star.
A sky survey image centered on the newly-discovered star SALT J203959.5-034117 (J2039). It’s one of 8 new super-hot stars found with SALT, the largest single optical telescope in the Southern Hemisphere. Image via Tom Watts (AOP)/ STScINASA/ The Dark Energy Survey/ Royal Astronomical Society/ CC BY 4.0.

8 new super-hot stars

The Royal Astronomical Society, based in London, said this week (January 9, 2023) that astronomers have pinpointed eight of the hottest stars yet known in our universe. Surprisingly, all have surfaces hotter than 100,000 degrees Celsius (180,000 F). And the hottest has a surface temperature of 180,000 C! That’s in contrast to our sun, which has a surface temperature of about 5,800 C (10,500 F).

The Monthly Notices of the Royal Astronomical Society will publish the new work in its February 2023 issue. You’ll find the preprint online here.

The astronomers were using the Southern African Large Telescope (SALT) to survey helium-rich subdwarf stars. What’s more, these are hot, low-mass stars, thought to have a mass approximately half that of our sun. Also, they’re much dimmer than regular O-type main-sequence stars, which are young and very massive stars. In fact, one theory about helium-rich subdwarfs is that – instead of being young – they are evolved stars, of a type known as white dwarfs.

Available now! 2023 EarthSky lunar calendar. A unique and beautiful poster-sized calendar showing phases of the moon every night of the year! And they make a great gift.

They are white dwarf stars

Eventually, our sun will become a planet-sized white dwarf star, billions of years from now. That’ll be after the sun’s internal thermonuclear furnace consumes the hydrogen in the sun’s core. That’s because helium-rich subdwarfs are thought to have cores of carbon and oxygen, which are by-products of thermonuclear burning. So in these sorts of stars, the core of the star is thought to be surrounded by a shell in which helium (the 2nd-most-complex element after hydrogen) is burning. And astronomers believe helium-rich subdwarfs consist of between 50 to 100% helium, as evidenced by their spectra.

One of the newly identified super-hot stars is in a place where you would indeed expect to find a white dwarf. It appears to be the central star of a newly discovered planetary nebula, which is a vast shell of gas around an evolved star, formed from the layers of gas that have sloughed off the star. This super-hot star’s planetary nebula appears to be about a light-year wide.

2 of the 8 are variable stars

Additionally, two of the other newly discovered hot stars are pulsating stars, or variable stars.

The astronomers’ statement explained:

All of these stars are at an advanced stage of their life cycle and are approaching the end of their lives as white dwarfs. Due to their extremely high temperatures, each of these new discoveries is more than one hundred times brighter than the sun, which is considered unusual for white dwarf stars.

Black-on-white starfield image, with big round shell of gas in the middle.
One of the newly discovered super-hot stars – O(H) J2039 – appears to be the central star in a planetary nebula – a vast sphere of gas released from an evolved star – in this case about a light-year wide. As a matter of fact, our sun will likely have its own planetary nebula when it evolves to the white dwarf stage. Image via Monthly Notices of the Royal Astronomical Society.

Shedding light on how stars evolve

The fact is, white dwarfs are the densest stars in existence that consist of normal matter. And pre-white dwarfs are a few times bigger and will shrink to become white dwarfs within a few thousand years.

Simon Jeffery, an astronomer at the Armagh Observatory and Planetarium, who led the research, said:

Stars with effective temperatures of 100,000 degrees Celsius or higher are incredibly rare. It was a real surprise to find so many of these stars in our survey. These discoveries will help to increase our understanding of the late stages of stellar evolution.

Bottom line: An international team of astronomers – using a telescope in South Africa – have discovered 8 new super-hot stars.

Source: Hot white dwarfs and pre-white dwarfs discovered with SALT

The post Astronomers find 8 new super-hot stars first appeared on EarthSky.



from EarthSky https://ift.tt/wNpfYKl
8 new super-hot stars: Star field with 2 insets, showing location and close-up of hot star.
A sky survey image centered on the newly-discovered star SALT J203959.5-034117 (J2039). It’s one of 8 new super-hot stars found with SALT, the largest single optical telescope in the Southern Hemisphere. Image via Tom Watts (AOP)/ STScINASA/ The Dark Energy Survey/ Royal Astronomical Society/ CC BY 4.0.

8 new super-hot stars

The Royal Astronomical Society, based in London, said this week (January 9, 2023) that astronomers have pinpointed eight of the hottest stars yet known in our universe. Surprisingly, all have surfaces hotter than 100,000 degrees Celsius (180,000 F). And the hottest has a surface temperature of 180,000 C! That’s in contrast to our sun, which has a surface temperature of about 5,800 C (10,500 F).

The Monthly Notices of the Royal Astronomical Society will publish the new work in its February 2023 issue. You’ll find the preprint online here.

The astronomers were using the Southern African Large Telescope (SALT) to survey helium-rich subdwarf stars. What’s more, these are hot, low-mass stars, thought to have a mass approximately half that of our sun. Also, they’re much dimmer than regular O-type main-sequence stars, which are young and very massive stars. In fact, one theory about helium-rich subdwarfs is that – instead of being young – they are evolved stars, of a type known as white dwarfs.

Available now! 2023 EarthSky lunar calendar. A unique and beautiful poster-sized calendar showing phases of the moon every night of the year! And they make a great gift.

They are white dwarf stars

Eventually, our sun will become a planet-sized white dwarf star, billions of years from now. That’ll be after the sun’s internal thermonuclear furnace consumes the hydrogen in the sun’s core. That’s because helium-rich subdwarfs are thought to have cores of carbon and oxygen, which are by-products of thermonuclear burning. So in these sorts of stars, the core of the star is thought to be surrounded by a shell in which helium (the 2nd-most-complex element after hydrogen) is burning. And astronomers believe helium-rich subdwarfs consist of between 50 to 100% helium, as evidenced by their spectra.

One of the newly identified super-hot stars is in a place where you would indeed expect to find a white dwarf. It appears to be the central star of a newly discovered planetary nebula, which is a vast shell of gas around an evolved star, formed from the layers of gas that have sloughed off the star. This super-hot star’s planetary nebula appears to be about a light-year wide.

2 of the 8 are variable stars

Additionally, two of the other newly discovered hot stars are pulsating stars, or variable stars.

The astronomers’ statement explained:

All of these stars are at an advanced stage of their life cycle and are approaching the end of their lives as white dwarfs. Due to their extremely high temperatures, each of these new discoveries is more than one hundred times brighter than the sun, which is considered unusual for white dwarf stars.

Black-on-white starfield image, with big round shell of gas in the middle.
One of the newly discovered super-hot stars – O(H) J2039 – appears to be the central star in a planetary nebula – a vast sphere of gas released from an evolved star – in this case about a light-year wide. As a matter of fact, our sun will likely have its own planetary nebula when it evolves to the white dwarf stage. Image via Monthly Notices of the Royal Astronomical Society.

Shedding light on how stars evolve

The fact is, white dwarfs are the densest stars in existence that consist of normal matter. And pre-white dwarfs are a few times bigger and will shrink to become white dwarfs within a few thousand years.

Simon Jeffery, an astronomer at the Armagh Observatory and Planetarium, who led the research, said:

Stars with effective temperatures of 100,000 degrees Celsius or higher are incredibly rare. It was a real surprise to find so many of these stars in our survey. These discoveries will help to increase our understanding of the late stages of stellar evolution.

Bottom line: An international team of astronomers – using a telescope in South Africa – have discovered 8 new super-hot stars.

Source: Hot white dwarfs and pre-white dwarfs discovered with SALT

The post Astronomers find 8 new super-hot stars first appeared on EarthSky.



from EarthSky https://ift.tt/wNpfYKl

Aucun commentaire:

Enregistrer un commentaire