The gravitational mass of Proxima Centauri measured with SPHERE from a microlensing event

Proxima Centauri, our closest stellar neighbour, is a low-mass M5 dwarf orbiting in a triple system. An Earth-mass planet with an 11 day period has been discovered around this star. The star's mass has been estimated only indirectly using a mass-luminosity relation, meaning that large uncertain...

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Published in:Monthly notices of the Royal Astronomical Society 2018-10, Vol.480 (1), p.236-244
Main Authors: Zurlo, A, Gratton, R, Mesa, D, Desidera, S, Enia, A, Sahu, K, Almenara, J-M, Kervella, P, Avenhaus, H, Girard, J, Janson, M, Lagadec, E, Langlois, M, Milli, J, Perrot, C, Schlieder, J-E, Thalmann, C, Vigan, A, Giro, E, Gluck, L, Ramos, J, Roux, A
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Language:English
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Astrophysics
gravitational lensing: micro
methods: data analysis
Sciences of the Universe
Solar and Stellar Astrophysics
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container_title Monthly notices of the Royal Astronomical Society
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creator Zurlo, A
Gratton, R
Mesa, D
Desidera, S
Enia, A
Sahu, K
Almenara, J-M
Kervella, P
Avenhaus, H
Girard, J
Janson, M
Lagadec, E
Langlois, M
Milli, J
Perrot, C
Schlieder, J-E
Thalmann, C
Vigan, A
Giro, E
Gluck, L
Ramos, J
Roux, A
description Proxima Centauri, our closest stellar neighbour, is a low-mass M5 dwarf orbiting in a triple system. An Earth-mass planet with an 11 day period has been discovered around this star. The star's mass has been estimated only indirectly using a mass-luminosity relation, meaning that large uncertainties affect our knowledge of its properties. To refine the mass estimate, an independent method has been proposed: gravitational microlensing. By taking advantage of the close passage of Proxima Cen in front of two background stars, it is possible to measure the astrometric shift caused by the microlensing effect due to these close encounters and estimate the gravitational mass of the lens (Proxima Cen). Microlensing events occurred in 2014 and 2016 with impact parameters, the closest approach of Proxima Cen to the background star, of 1\farcs6 $\pm$ 0\farcs1 and 0\farcs5 $\pm$ 0\farcs1, respectively. Accurate measurements of the positions of the background stars during the last two years have been obtained with HST/WFC3, and with VLT/SPHERE from the ground. The SPHERE campaign started on March 2015, and continued for more than two years, covering 9 epochs. The parameters of Proxima Centauri's motion on the sky, along with the pixel scale, true North, and centering of the instrument detector were readjusted for each epoch using the background stars visible in the IRDIS field of view. The experiment has been successful and the astrometric shift caused by the microlensing effect has been measured for the second event in 2016. We used this measurement to derive a mass of 0.150$^{\textrm{+}0.062}_{-0.051}$ (an error of $\sim$ 40\%) \MSun for Proxima Centauri acting as a lens. This is the first and the only currently possible measurement of the gravitational mass of Proxima Centauri.
doi_str_mv 10.1093/mnras/sty1805
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subjects Astrophysics
gravitational lensing: micro
methods: data analysis
Sciences of the Universe
Solar and Stellar Astrophysics
title The gravitational mass of Proxima Centauri measured with SPHERE from a microlensing event
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