Hostname: page-component-848d4c4894-2xdlg Total loading time: 0 Render date: 2024-06-21T07:45:34.607Z Has data issue: false hasContentIssue false
  • English
  • Français

Interferometric diagnostics for magnetic spots detection

Published online by Cambridge University Press:  10 September 2015

R. Ligi
R. Ligi*
Affiliation:
Observatoire de la Côte d'Azur, Boulevard de l'Observatoire, CS 34229, 06304 Nice Cedex 4, France
Get access

Abstract

The signature of activity in general, and of stellar magnetic spots in particular, is present in every measurements, including interferometric ones. Indeed, stellar spots can be found on many stellar surfaces, their size and number varying according to their host's magnetic field and rotational velocity. To correctly determine stellar parameters, it is thus necessary to determine and extract stellar activity's signals. Interferometric observables are disturbed by activity, and this observing technique thus constitutes a good way of probing stellar surface. However, magnetic spots sometimes mimic other phenomenon, like a transiting exoplanet. In that case, the combination of several observing techniques, like photometry and interferometry, is mandatory to extract the planetary signal from the spot's one, and then characterize the exoplanet.

Type
Research Article
Information
European Astronomical Society Publications Series , Volume 70: What the Highest Angular Resolution Can Bring to Stellar Astrophysics? , 2014 , pp. 273 - 283
Copyright
© EAS, EDP Sciences, 2015

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Berdyugina, S.V., 2005, Liv. Rev, Solar Phys., 2, 8
Bigot, L., Kervella, P., Thevenin, F., & Segransan, D., 2006, A&A, 446, 635
Baglin, A., 2003, Adv. Space Res., 31, 345CrossRef
Barnes, J.R., Jeffers, S.V., & Jones, H.R.A., 2011, MNRAS, 412, 1599CrossRef
Baron, F., Cotton, W.D., Lawson, P.R., et al., 2012, Soc. Photo-Opt. Instrum. Eng. (SPIE) Conf. Ser., Vol. 8445
Chiavassa, A., Plez, B., Josselin, E., & Freytag, B., 2009, A&A, 506, 1351
Chiavassa, A., Ligi, R., Magic, Z., et al., 2014, A&A, 567, A115 [arXiv-eprint:1404.7049]
Dumusque, X., Santos, N.C., Udry, S., Lovis, C., & Bonfils, X., 2011, A&A, 527, A82
Hayek, W., Sing, D., Pont, F., & Asplund, M., 2012, A&A, 539, A102
Huber, D., Ireland, M.J., Bedding, T.R., et al., 2012, MNRAS, 423, L16CrossRef
Ireland, M.J., Mérand, A., ten Brummelaar, T.A., et al., 2008, Soc. Photo-Opt. Instrum. Eng. (SPIE) Conf. Ser., 7013
Johns-Krull, C.M., 2007, ApJ, 664, 975CrossRef
Krivova, N.A., Solanki, S.K., Fligge, M., & Unruh, Y.C., 2003, A&A, 399, L1
Lagrange, A.-M., Desort, M., & Meunier, N., 2010, A&A, 512, A38
Ligi, R., Mourard, D., Lagrange, A.-M., et al., 2015, A&A, 574, A69
Ligi, R., Mourard, D., Lagrange, A.-M., et al. 2012, A&A, 545, A5
Ligi, R., Mourard, D., Nardetto, N., & Clausse, J.-M., 2013, J. Astron. Instrum., 02, 1340003CrossRef
Mayor, M. & Queloz, D., 1995, Nature, 378, 355CrossRef
Meunier, N., Desort, M., & Lagrange, A.-M., 2010, A&A, 512, A39
Monnier, J.D., Berger, J.-P., Millan-Gabet, R., & ten Brummelaar, T.A., 2004, ed. W.A. Traub, Soc. Photo-Opt. Instrum. Eng. (SPIE) Conf. Ser., 5491, 1370
Mourard, D., Clausse, J.-M., Marcotto, A., et al., 2003, A&A, 508, 1073
Nutzman, P.A., Fabrycky, D.C., & Fortney, J.J., 2011, ApJ, 740, L10CrossRef
Petrov, P.P., 2003, Astrophysics, 46, 506CrossRef
Queloz, D., Henry, G.W., Silvan, J.P., et al., 2001, A&A, 379, 279
Sanchis-Ojeda, R., Winn, J.N., Holman, M.J., et al., 2011, ApJ, 733, 127CrossRef
Sanchis-Ojeda, R., Fabrycky, D.C., Winn, J.N., et al., 2012, Nature, 487, 449CrossRef
Silva-Valio, A., & Lanza, A.F., 2011, A&A, 529, A36
Strassmeier, K.G., 2009, A&ARv, 17, 251
Strassmeier, K.G., 1999, A&A, 347, 225
Wright, J.T., Upadhyay, S., Marcy, G.W., et al., 2009, ApJ, 693, 1084CrossRef