High levels of surface differential rotation on the young G0 dwarf HD 171488

S.V. Jeffers; J.F. Donati

High levels of surface differential rotation on the young G0 dwarf HD 171488

S.V. Jeffers, J.F. Donati

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Abstract

We present high-resolution images of the young, rapidly rotating G0 dwarf HD 171488, using both Stokes I and Stokes V data. The observations were secured with the MuSiCoS spectropolarimeter at Telescope Bernard Lyot from 2005 May 31 to June 10. The photospheric surface brightness distributions show a strong and slightly decentred polar cap that dominates over weak high- and low-latitude spot features. The large-scale magnetic field topology shows a strong ring of anticlockwise azimuthal field with a latitudinal dependence on polarity and large regions of radial field with negative polarity at all latitudes. Using the good phase coverage of our data, we measure the differential rotation on HD 171488. The results indicate that the equator laps the pole every 12 days for brightness data and 13 days for magnetic data, which is the highest measurement of differential rotation obtained using Zeeman–Doppler imaging techniques.

Original language	Undefined/Unknown
Pages (from-to)	635-644
Number of pages	10
Journal	Monthly Notices of the Royal Astronomical Society
Volume	390
Issue number	2
Publication status	Published - 2008

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@article{ce19162a39e84f6193199b3ae4e601bc,

title = "High levels of surface differential rotation on the young G0 dwarf HD 171488",

abstract = "We present high-resolution images of the young, rapidly rotating G0 dwarf HD 171488, using both Stokes I and Stokes V data. The observations were secured with the MuSiCoS spectropolarimeter at Telescope Bernard Lyot from 2005 May 31 to June 10. The photospheric surface brightness distributions show a strong and slightly decentred polar cap that dominates over weak high- and low-latitude spot features. The large-scale magnetic field topology shows a strong ring of anticlockwise azimuthal field with a latitudinal dependence on polarity and large regions of radial field with negative polarity at all latitudes. Using the good phase coverage of our data, we measure the differential rotation on HD 171488. The results indicate that the equator laps the pole every 12 days for brightness data and 13 days for magnetic data, which is the highest measurement of differential rotation obtained using Zeeman–Doppler imaging techniques.",

author = "S.V. Jeffers and J.F. Donati",

year = "2008",

language = "Undefined/Unknown",

volume = "390",

pages = "635--644",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "Oxford University Press",

number = "2",

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TY - JOUR

T1 - High levels of surface differential rotation on the young G0 dwarf HD 171488

AU - Jeffers, S.V.

AU - Donati, J.F.

PY - 2008

Y1 - 2008

N2 - We present high-resolution images of the young, rapidly rotating G0 dwarf HD 171488, using both Stokes I and Stokes V data. The observations were secured with the MuSiCoS spectropolarimeter at Telescope Bernard Lyot from 2005 May 31 to June 10. The photospheric surface brightness distributions show a strong and slightly decentred polar cap that dominates over weak high- and low-latitude spot features. The large-scale magnetic field topology shows a strong ring of anticlockwise azimuthal field with a latitudinal dependence on polarity and large regions of radial field with negative polarity at all latitudes. Using the good phase coverage of our data, we measure the differential rotation on HD 171488. The results indicate that the equator laps the pole every 12 days for brightness data and 13 days for magnetic data, which is the highest measurement of differential rotation obtained using Zeeman–Doppler imaging techniques.

AB - We present high-resolution images of the young, rapidly rotating G0 dwarf HD 171488, using both Stokes I and Stokes V data. The observations were secured with the MuSiCoS spectropolarimeter at Telescope Bernard Lyot from 2005 May 31 to June 10. The photospheric surface brightness distributions show a strong and slightly decentred polar cap that dominates over weak high- and low-latitude spot features. The large-scale magnetic field topology shows a strong ring of anticlockwise azimuthal field with a latitudinal dependence on polarity and large regions of radial field with negative polarity at all latitudes. Using the good phase coverage of our data, we measure the differential rotation on HD 171488. The results indicate that the equator laps the pole every 12 days for brightness data and 13 days for magnetic data, which is the highest measurement of differential rotation obtained using Zeeman–Doppler imaging techniques.

M3 - Article

SN - 0035-8711

VL - 390

SP - 635

EP - 644

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

ER -