I Which Main Sequence Stars Experience Hot Corona Phenomena Beyond G2?

  • I
  • Thread starter Thread starter spossatamente
  • Start date Start date
  • Tags Tags
    Corona Hot Stars
AI Thread Summary
Main sequence stars beyond G2, such as F, K, and M stars, also experience coronal phenomena similar to the Sun, with many exhibiting chromospheres and coronae detectable by X-ray telescopes. Young stars, particularly those of spectral types G and K, can have highly luminous coronae, with examples like FK Comae Berenices showing extreme activity and high temperatures. O-B stars emit strong X-rays but lack traditional coronae, while A-type stars do not exhibit chromospheres or coronae due to the absence of convection zones. Recent research has improved understanding of solar corona heating, primarily linked to magnetic field interactions, though the exact energy transfer mechanisms remain under investigation. The Parker Solar Probe is anticipated to provide further insights into these phenomena.
spossatamente
Messages
15
Reaction score
0
We know that solar corona is heated up although we don't know yet the mechanism. I was wondering which other type of stars, else than G2, in the main sequence suffer of the same effect?
Thank you!
 
Last edited:
Astronomy news on Phys.org
spossatamente said:
We know that solar corona is heated up although we don't know yet the mechanism

not entirely correct ... better understandings have come over recent years
The primary cause appears to come from interactions with magnetic fields of the sun
The bit they are still trying to figure out is how the magnetic fields impart energy to the coronal material

https://www.researchgate.net/publication/225454882_The_heating_of_the_solar_corona

There's a lot of hope that the upcoming Parker Solar Probe will answer some of the missing fine details

https://www.theguardian.com/science...robe-set-the-controls-for-the-edge-of-the-sun

https://www.bing.com/news/search?q=...na&qpvt=Heating+of+the+solar+corona&FORM=EWRE
spossatamente said:
I was wondering which other type of stars, else than G2, in the main sequence suffer of the same effect?

a quick google search came up with this in Wiki ...

Stellar coronae[edit]
Coronal stars are ubiquitous among the stars in the cool half of the Hertzsprung–Russell diagram.[17] These coronae can be detected using X-ray telescopes. Some stellar coronae, particularly in young stars, are much more luminous than the Sun's. For example, FK Comae Berenices is the prototype for the FK Com class of variable star. These are giants of spectral types G and K with an unusually rapid rotation and signs of extreme activity. Their X-ray coronae are among the most luminous (Lx ≥ 1032 erg·s−1 or 1025W) and the hottest known with dominant temperatures up to 40 MK.[17]

The astronomical observations planned with the Einstein Observatory by Giuseppe Vaiana and his group[18] showed that F-, G-, K- and M-stars have chromospheres and often coronae much like our Sun. The O-B stars, which do not have surface convection zones, have a strong X-ray emission. However these stars do not have coronae, but the outer stellar envelopes emit this radiation during shocks due to thermal instabilities in rapidly moving gas blobs. Also A-stars do not have convection zones but they do not emit at the UV and X-ray wavelengths. Thus they appear to have neither chromospheres nor coronae
regards
Dave
.
 
Last edited:

Thread 'Does it make sense to build new radio telescopes?'

TL;DR Summary: In 3 years, the Square Kilometre Array (SKA) telescope (or rather, a system of telescopes) should be put into operation. In case of failure to detect alien signals, it will further expand the radius of the so-called silence (or rather, radio silence) of the Universe. Is there any sense in this or is blissful ignorance better? In 3 years, the Square Kilometre Array (SKA) telescope (or rather, a system of telescopes) should be put into operation. In case of failure to detect...
View full post »
Thread 'Could gamma-ray bursts have an intragalactic origin?'

Thread 'Could gamma-ray bursts have an intragalactic origin?'

This is indirectly evidenced by a map of the distribution of gamma-ray bursts in the night sky, made in the form of an elongated globe. And also the weakening of gamma radiation by the disk and the center of the Milky Way, which leads to anisotropy in the possibilities of observing gamma-ray bursts. My line of reasoning is as follows: 1. Gamma radiation should be absorbed to some extent by dust and other components of the interstellar medium. As a result, with an extragalactic origin, fewer...
View full post »

Thread 'Our Beautiful Universe - Photos and Videos'

This thread is dedicated to the beauty and awesomeness of our Universe. If you feel like it, please share video clips and photos (or nice animations) of space and objects in space in this thread. Your posts, clips and photos may by all means include scientific information; that does not make it less beautiful to me (n.b. the posts must of course comply with the PF guidelines, i.e. regarding science, only mainstream science is allowed, fringe/pseudoscience is not allowed). n.b. I start this...
View full post »

Similar threads

I How Does the Size of Neutron Stars Compare to Black Holes?
Replies
48
Views
5K
I Why does the core collapse happen so fast in a supernova?
Replies
3
Views
3K
I How Can We Measure Properties of Distant Planets and Stars?
Replies
12
Views
2K
How to estimate/calculate stellar wind from a star?
Replies
6
Views
3K
I Observational Astronomy Project Ideas to Show Special Relativity
Replies
26
Views
4K
Wrong Explanations for the Luminosity of Main-Sequence Stars
2
Replies
72
Views
7K
What sets the fusion rate in a main-sequence star?
Replies
5
Views
3K
I The Trouble with TESS: Examining its Limitations in Exoplanet Observations
Replies
2
Views
2K
I Are Red Dwarfs Home to Earth-Sized Water Worlds?
Replies
23
Views
4K
I Core collapse of a supernova: the "void" left by the collapsed core?
Replies
45
Views
9K

Hot Threads

Recent Insights

Back
Top