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Starspot

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Title: Starspot  
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Subject: Star, United States Naval Observatory Flagstaff Station, Sunspot, T Tauri star, Red dwarf
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Starspot

Starspots are the equivalent of sunspots located on other stars. Spots the size of sunspots are very hard to detect on other stars because they are too small to cause detectable fluctuations in brightness. Observed starspots are in general much larger than those on the Sun: up to about 30% of the stellar surface may be covered, corresponding to starspots 100 times larger than those on the Sun.

Contents

  • Detection and measurements 1
  • Temperature 2
  • Lifetimes 3
  • Activity cycles 4
    • Flip-flop cycles 4.1
  • Notes 5
  • References 6
  • Further reading 7

Detection and measurements

To detect and measure the extent of starspots one uses several types of methods.

With the Zeeman-Doppler imaging technique the direction of the magnetic field on stars can be determined since spectral lines are split according to the Zeeman effect, revealing the direction and magnitude of the field.
  • For slowly rotating stars – Line Depth Ratio (LDR).
Here one measures two different spectral lines, one sensitive to temperature and one which is not. Since starspots have a lower temperature than their surroundings the temperature-sensitive line changes its depth. From the difference between these two lines the temperature and size of the spot can be calculated, with a temperature accuracy of 10K.

Temperature

Observed starspots have a temperature which is in general 500–2000 Kelvin cooler than the stellar photosphere. This temperature difference could give rise to a brightness variation up to 0.6 magnitudes between the spot and the surrounding surface. There also seems to be a relation between the spot temperature and the temperature for the stellar photosphere, indicating that starspots behave similarly for different types of stars (observed in G-K dwarfs)

Lifetimes

The lifetime for a starspot depends on its size.

  • For small spots the lifetime is proportional to their size, similar to spots on the Sun.[4]
  • For large spots the sizes depend on the differential rotation of the star, but there are some indications that large spots which give rise to light variations can survive for many years even in stars with differential rotation.[4]

Activity cycles

The distribution of starspots across the stellar surface varies analogous to the solar case, but differs for different types of stars, e.g., depending on whether the star is a binary or not. The same type of activity cycles that are found for the Sun can be seen for other stars, corresponding to the solar (2 times) 11-year cycle. Some stars have longer cycles, possibly analogous to the Maunder minima for the Sun.

Flip-flop cycles

Another activity cycle is the so-called flip-flop cycle, which implies that the activity on either hemisphere shifts from one side to the other. The same phenomena can be seen on the Sun, with periods of 3.8 and 3.65 years for the northern and southern hemispheres. Flip-flop phenomena are observed for both binary RS CVn stars and single stars although the extent of the cycles are different between binary and singular stars.

Notes

  1. ^ Cameron
  2. ^ Cameron Eclipse movies show spots on two imaged binaries
  3. ^ Kepler-63b: A Giant Planet in a Polar Orbit around a Young Sun-like Star
  4. ^ a b Berdyugina 5.3 Lifetimes

References

  • Cameron, Andrew Collier. "Mapping starspots and magnetic fields on cool stars". (explains how Doppler imaging works)  
  • Berdyugina, Svetlana V. (2005). "Starspots: A Key to the Stellar Dynamo". Living Reviews in Solar Physics (Institute of Astronomy ETHZ,  
  • K.G.Strassmeier (1997), "Aktive Sterne. Laboratorien der solaren Astrophysik", Springer, ISBN 3-211-83005-7

Further reading

  • Strassmeir, Klaus G. (September 2009). "Starspots". The Astronomy and Astrophysics Review 17 (3): 251–308.  
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