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STELLAR CHEMISTRY
Searching for the weakest detectable magnetic fields in white dwarfs
by Staff Writers
La Palma, Spain (SPX) Nov 26, 2018

file illustration

Magnetic fields are present in a large variety of stars across the Hertzsprung-Russell diagram, during all evolutionary stages from pre-main sequence stars, to main sequence stars and evolved stars, up to the final stages when the star explodes as a supernova.

Magnetic fields play important roles in stellar evolution. They transfer angular momentum, both internally during stellar evolution, and externally during periods of accretion or mass loss. Even a fairly weak magnetic field can suppress convection in stellar atmospheres and affect cooling times of extremely old white dwarfs. While the effects of the magnetic fields are well observed and sometime even understood, the origin of stellar magnetic fields is often unknown, and we do not know how fields evolve as stars evolve.

Detection of a stellar magnetic field generally relies on observation of splitting and/or polarisation of spectral lines produced by the Zeeman effect. In a general way, splitting of spectral lines by the Zeeman effect is detected in a normal flux spectrum, and allows one to estimate the typical amplitude of the magnetic field, averaged over the star.

Circular polarisation in a spectral line makes it possible to detect the averaged line-of-sight component of the magnetic field, and can be sensitive to a magnetic field that is an order of magnitude or more weaker than that detectable from line splitting.

Interest has been increasing in recent years in obtaining a clear observational overview of the occurrence and characteristics of magnetic fields over the whole Hertzsprung-Russell diagram. A very interesting example is the magnetic fields that occur in about 10% of white dwarfs, which range in strength from about 1kG (1 kilogauss or 0.1 tesla) to almost 1,000 MG.

Because spectropolarimetry is the most sensitive of the available field discovery methods, astronomers have been using ISIS on the William Herschel Telescope (WHT), FORS on the Very Large Telescope (VLT), and Espadons on the Canada-France-Hawaii Telescope (CFHT). Each of these instruments has specific strengths.

Both ISIS and FORS are particularly well suited to detecting very weak fields in relatively faint (V > 14) white dwarfs. Remarkably, because ISIS can do spectropolarimetry at an optimal resolving power around the H-alpha line in the red, it is possible to obtain the most sensitive field measurements, even though the telescope area is only one-quarter of that of the VLT.

The ongoing ISIS survey to find more weak-field white dwarfs has the potential to substantially improve the knowledge of the actual distribution of magnetic field strengths among white dwarfs, to provide more bright examples of weak-field stars for detailed modeling and analysis, and to assist us in understanding whether magnetic fields decay during white dwarf cooling or whether some process(es) generate new magnetic flux.

J. D. Landstreet, S. Bagnulo, S., G. Valyavin, A. F. Valeev, 2018, "Monitoring and Modeling of White Dwarfs with Extremely Weak Magnetic Fields. WD 2047+372 and WD 2359-434," A and A, 607, A92

S. Bagnulo and J. D. Landstreet, 2018, "Searching for the Weakest Detectable Magnetic Fields in White Dwarfs. Highly-Sensitive Measurements from First VLT and WHT Surveys," A and A, 618, A113


Related Links
Isaac Newton Group Of Telescopes
Stellar Chemistry, The Universe And All Within It


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