Measurement of stellar and substellar winds using white dwarf hosts

Walters, N; Farihi, Jay; Dufour, Patrick; Pineda, J. Sebastian; Izzard, Robert G.

doi:10.1093/mnras/stad1885

Monthly Notices of the Royal Astronomical Society

2023

DOI: 10.1093/mnras/stad1885

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Measurement of stellar and substellar winds using white dwarf hosts

N Walters

Jay Farihi

Patrick Dufour

et al.

Abstract: White dwarfs stars are known to be polluted by their active planetary systems, but little attention has been paid to the accretion of wind from low-mass companions. The capture of stellar or substellar wind by white dwarfs is one of few methods available to astronomers which can assess mass-loss rates from unevolved stars and brown dwarfs, and the only known method to extract their chemical compositions. In this work, four white dwarfs with closely-orbiting, L-type brown dwarf companions are studied to place l… Show more

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2024

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Cited by 2 publications

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PEWDD: A database of white dwarfs enriched by exo-planetary material

Williams,

Gänsicke,

Swan

et al. 2024

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We present the Planetary Enriched White Dwarf Database (PEWDD), a collection of published photospheric abundances of white dwarfs accreting planetary debris alongside additional information relevant to metal-enrichment and the presence of infrared excesses, emission lines, and binary companions. At the time of publishing, PEWDD contains information on 1739 white dwarfs and will be kept up to date with information from new publications. A total of 24 photospheric metals are recorded and are linked to accretion of exo-planetary material. The overall properties of metal-enriched white dwarfs are severely affected by observational selection effects. In particular, we find that the metals that are detectable strongly correlate with the effective temperature. By considering metal-enriched white dwarfs that have abundances measured by different methods, we find a spread that is comparable with the often-quoted ad hoc estimated abundance uncertainties, namely $ We draw attention to a dichotomy in the median accretion rates for metal-enriched H- and He-dominated white dwarfs, with $ acc, H $ and $ acc, He $, when extrapolating bulk compositions from bulk Earth Ca abundance. We identified 40 metal-enriched white dwarfs in binary systems and find evidence that enrichment is suppressed by binary companions within 200\,au.

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PEWDD: A database of white dwarfs enriched by exo-planetary material

Williams,

Gänsicke,

Swan

et al. 2024

A&A

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Unravelling sub-stellar magnetospheres

Kavanagh,

Vedantham,

Rose

et al. 2024

A&A

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At the sub-stellar boundary, signatures of magnetic fields begin to manifest at radio wavelengths, analogous to the auroral emission of the magnetised solar system planets. This emission provides a singular avenue for measuring magnetic fields at planetary scales in extrasolar systems. So far, exoplanets have eluded detection at radio wavelengths. However, ultracool dwarfs (UCDs), their higher mass counterparts, have been detected for over two decades in the radio. Given their similar characteristics to massive exoplanets, UCDs are ideal targets to bridge our understanding of magnetic field generation from stars to planets. In this work, we develop a new tomographic technique for inverting both the viewing angle and large-scale magnetic field structure of UCDs from observations of coherent radio bursts. We apply our methodology to the nearby T8 dwarf WISE J062309.94-045624.6 (J0623) which was recently detected at radio wavelengths, and show that it is likely viewed pole-on. We also find that J0623's rotation and magnetic axes are misaligned significantly, reminiscent of Uranus and Neptune, and show that it may be undergoing a magnetic cycle with a period exceeding 6 months in duration. These findings demonstrate that our method is a robust new tool for studying magnetic fields on planetary-mass objects. With the advent of next-generation low-frequency radio facilities, the methods presented here could facilitate the characterisation of exoplanetary magnetospheres for the first time.

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Measurement of stellar and substellar winds using white dwarf hosts

Cited by 2 publications

References 145 publications

PEWDD: A database of white dwarfs enriched by exo-planetary material

PEWDD: A database of white dwarfs enriched by exo-planetary material

Unravelling sub-stellar magnetospheres

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