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High Speed Magnetic Propeller Star Completes a Full Rotation Every 25 Seconds

Posted by Guy Pirro   01/26/2022 02:32AM

High Speed Magnetic Propeller Star Completes a Full Rotation Every 25 Seconds

Artist impression of LAMOST J024048.51+195226.9 – A white dwarf that completes a full rotation once every 25 seconds, confirmed to be the fastest spinning white dwarf ever observed. A white dwarf is a star that has burnt up all of its fuel, has shed its outer layers, and is now undergoing a process of shrinking and cooling. The team of astronomers at the University of Warwick in the UK established the spin period of the star and determined that it is as an extremely rare example of a magnetic propeller binary system, where the white dwarf pulls gaseous plasma from a nearby companion star and flings it into space at around 3000 kilometers per second. This fast-spinning star is about the size of the Earth but is thought to be at least 200,000 times more massive. It is only the second magnetic propeller white dwarf that has been identified in over seventy years of searching. (Image Credit: University of Warwick, Mark Garlick)

 


High Speed Magnetic Propeller Star Completes a Full Rotation Every 25 Seconds

A white dwarf that completes a full rotation once every 25 seconds has been confirmed to be the fastest spinning white dwarf ever observed, according to a team of astronomers at the University of Warwick in the UK. The team established the spin period of the star and determined that it is as an extremely rare example of a magnetic propeller binary system, where the white dwarf pulls gaseous plasma from a nearby companion star and flings it into space at around 3000 kilometers per second. It is only the second magnetic propeller white dwarf that has been identified in over seventy years of searching.

A white dwarf is a star that has burnt up all of its fuel and shed its outer layers, now undergoing a process of shrinking and cooling over millions of years. The star that the Warwick team observed, named LAMOST J024048.51+195226.9 (or J0240+1952 for short), is the size of the Earth but is thought to be at least 200,000 times more massive. It is part of a binary star system and its immense gravity is pulling material from its larger companion star in the form of plasma.

In the past, this plasma was falling onto the white dwarf’s equator at high speed, providing the energy that has given it this dizzyingly fast spin. Put into context, one rotation of the planet Earth takes 24 hours, while the equivalent on J0240+1952 is a mere 25 seconds. That’s 20% faster than the confirmed white dwarf with the most comparable spin rate, which completes a rotation in just over 29 seconds.

However, at some point in its evolutionary history J0240+1952 developed a strong magnetic field. The magnetic field acts a protective barrier, causing most of the falling plasma to be propelled away from the white dwarf. The remainder will flow towards the star’s magnetic poles. It gathers in bright spots on the surface of the star and as these rotate in and out of view they cause pulsations in the light that the astronomers observe from Earth, which they then used to measure the rotation of the entire star.

Lead author Dr Ingrid Pelisoli of the University of Warwick Department of Physics said: “J0240+1952 will have completed several rotations in the short amount of time that people take to read about it, it is really incredible. The rotation is so fast that the white dwarf must have an above average mass just to stay together and not be torn apart.

“It is pulling material from its companion star due to its gravitational effect, but as that gets closer to the white dwarf the magnetic field starts to dominate. This type of gas is highly conducting and picks up a lot of speed from this process, which propels it away from the star and out into space.”

J0240+1952 is one of only two stars with this magnetic propeller system discovered in over past seventy years. Although material being flung out of the star was first observed in 2020, astronomers had not been able to confirm the presence of a rapid spin that is a main ingredient of a magnetic propeller, as the pulsations are too fast and dim for other telescopes to observe.

To visualize the star at that speed for the first time, the University of Warwick team used the highly sensitive HiPERCAM instrument, jointly operated by Warwick and the University of Sheffield with funding from the European Research Council. This was specially mounted on the largest functioning optical telescope in the world, the 10 meter diameter Gran Telescopio Canarias in La Palma, to capture as much light as possible.

“These kinds of studies are possible thanks to the unique combination of the fast imaging capability of HiPERCAM with the largest collecting area in the world provided by GTC,” said Antonio Cabrera, Head of GTC Science Operations.

Co-author Professor Tom Marsh from the University of Warwick Department of Physics adds: “It’s only the second time that we have found one of these magnetic propeller systems, so we now know it’s not a unique occurrence. It establishes that the magnetic propeller mechanism is a generic property that operates in these binaries, if the circumstances are right.

“The second discovery is almost as important as the first as you develop a model for the first and with the second you can test it to see if that model works. This latest discovery has shown that the model works really well, it predicted that the star had to be spinning fast, and indeed it does.”

The study was led by the University of Warwick with the University of Sheffield, and funded by the Science and Technology Facilities Council (STFC), part of UK Research and Innovation, and the Leverhulme Trust.

 

 

For more information:

 

https://warwick.ac.uk/newsandevents/pressreleases/high-speed_propeller_star

 

 

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