PLATOSpec: a precise spectrograph in support of space missions

P. Kabáth; M. Skarka; A. Hatzes; E. Guenther; L. Vanzi; R. Brahm; J. Janík; P. Pintr; P. Gajdoš; J. Lipták; J. Žák; H. M.J. Boffin; L. Antonucci; G. Avila; Z. Balkóová; M. E. Ball; M. Flores; A. Fuentes; J. Fuchs; R. Greimel; A. Gajardo; V. D. Ivanov; J. Köhler; M. Leitzinger; M. R. Ludwig; T. Moravčík; J. Nečásek; R. J.U. Neubert; P. Odert; G. Olguín; M. Tala Pinto; M. Roth; L. Řezba; V. Schaffenroth; M. Sigwarth; J. Srba; A. Suárez; P. Škoda; J. Šubjak; J. Václavík; M. Veselý; R. Veselý; M. Vítková; J. U. Winkler; M. Zummer; E. Žďárská

doi:10.1093/mnras/staf1972

PLATOSpec: a precise spectrograph in support of space missions

P. Kabáth
, M. Skarka
, A. Hatzes
, E. Guenther
, L. Vanzi
, R. Brahm
, J. Janík
, P. Pintr
, P. Gajdoš
, J. Lipták
, J. Žák
, H. M.J. Boffin
, L. Antonucci
, G. Avila
, Z. Balkóová
, M. E. Ball
, M. Flores
, A. Fuentes
, J. Fuchs
, R. Greimel

A. Gajardo, V. D. Ivanov, J. Köhler, M. Leitzinger, M. R. Ludwig, T. Moravčík, J. Nečásek, R. J.U. Neubert, P. Odert, G. Olguín, M. Tala Pinto, M. Roth, L. Řezba, V. Schaffenroth, M. Sigwarth, J. Srba, A. Suárez, P. Škoda, J. Šubjak, J. Václavík, M. Veselý, R. Veselý, M. Vítková, J. U. Winkler, M. Zummer, E. Žďárská

Facultad de Ingeniería y Ciencias

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

The upcoming space missions that will characterize exoplanets, such as PLATO and Ariel, will collect huge amounts of data that will need to be complemented with ground-based observations. The aim of the PLATOSpec project is to perform science with an echelle spectrograph capable of measuring precise radial velocities. The main focus of the spectrograph will be to perform the initial screening and validation of exoplanetary candidates, in addition to study stellar variability. It will be possible to determine the physical properties of large exoplanets. The PLATOSpec blue-sensitive spectrograph, with a spectral range of 380–700nm and a resolving power of R = 70 000, is installed on the 1.5-m telescope at the ESO La Silla Observatory in Chile. Initial results show that the radial-velocity limit given by the wavelength calibration is about 2–3ms⁻¹. Tests on bright F-K main-sequence standard stars reveal a scatter of about 5ms⁻¹ over a few hours. The scatter over a few months is slightly higher. We demonstrate the capabilities of PLATOSpec on the mass determination of WASP-79b and the spin-orbit alignment of WASP-62b via the Rossiter–McLaughlin effect. We show its possible usage on variable star research as demonstrated on the false-positive exoplanetary candidate TIC238060327, which is proven a binary star. Investigation of line-profile variations of the roAp star α Cir shows that PLATOSpec can also be used for the surface mapping. Finally, we present new results on the active star UY Pic in the PLATO southern field. Our results show that PLATOSpec is a versatile spectrograph with great precision.

Idioma original	Inglés
Número de artículo	staf1972
Publicación	Monthly Notices of the Royal Astronomical Society
Volumen	545
N.º	1
DOI	https://doi.org/10.1093/mnras/staf1972
Estado	Publicada - 1 ene. 2026

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Kabáth, P., Skarka, M., Hatzes, A., Guenther, E., Vanzi, L., Brahm, R., Janík, J., Pintr, P., Gajdoš, P., Lipták, J., Žák, J., Boffin, H. M. J., Antonucci, L., Avila, G., Balkóová, Z., Ball, M. E., Flores, M., Fuentes, A., Fuchs, J., ... Žďárská, E. (2026). PLATOSpec: a precise spectrograph in support of space missions. Monthly Notices of the Royal Astronomical Society, 545(1), Artículo staf1972. https://doi.org/10.1093/mnras/staf1972

@article{b35a4df6d64a4b1da6c39a8a7846dbcf,

title = "PLATOSpec: a precise spectrograph in support of space missions",

abstract = "The upcoming space missions that will characterize exoplanets, such as PLATO and Ariel, will collect huge amounts of data that will need to be complemented with ground-based observations. The aim of the PLATOSpec project is to perform science with an echelle spectrograph capable of measuring precise radial velocities. The main focus of the spectrograph will be to perform the initial screening and validation of exoplanetary candidates, in addition to study stellar variability. It will be possible to determine the physical properties of large exoplanets. The PLATOSpec blue-sensitive spectrograph, with a spectral range of 380–700nm and a resolving power of R = 70 000, is installed on the 1.5-m telescope at the ESO La Silla Observatory in Chile. Initial results show that the radial-velocity limit given by the wavelength calibration is about 2–3ms−1. Tests on bright F-K main-sequence standard stars reveal a scatter of about 5ms−1 over a few hours. The scatter over a few months is slightly higher. We demonstrate the capabilities of PLATOSpec on the mass determination of WASP-79b and the spin-orbit alignment of WASP-62b via the Rossiter–McLaughlin effect. We show its possible usage on variable star research as demonstrated on the false-positive exoplanetary candidate TIC238060327, which is proven a binary star. Investigation of line-profile variations of the roAp star α Cir shows that PLATOSpec can also be used for the surface mapping. Finally, we present new results on the active star UY Pic in the PLATO southern field. Our results show that PLATOSpec is a versatile spectrograph with great precision.",

keywords = "instrumentation: spectrographs, planets and satellites: general, techniques: radial velocities",

author = "P. Kab{\'a}th and M. Skarka and A. Hatzes and E. Guenther and L. Vanzi and R. Brahm and J. Jan{\'i}k and P. Pintr and P. Gajdo{\v s} and J. Lipt{\'a}k and J. {\v Z}{\'a}k and Boffin, \{H. M.J.\} and L. Antonucci and G. Avila and Z. Balk{\'o}ov{\'a} and Ball, \{M. E.\} and M. Flores and A. Fuentes and J. Fuchs and R. Greimel and A. Gajardo and Ivanov, \{V. D.\} and J. K{\"o}hler and M. Leitzinger and Ludwig, \{M. R.\} and T. Morav{\v c}{\'i}k and J. Ne{\v c}{\'a}sek and Neubert, \{R. J.U.\} and P. Odert and G. Olgu{\'i}n and Pinto, \{M. Tala\} and M. Roth and L. {\v R}ezba and V. Schaffenroth and M. Sigwarth and J. Srba and A. Su{\'a}rez and P. {\v S}koda and J. {\v S}ubjak and J. V{\'a}clav{\'i}k and M. Vesel{\'y} and R. Vesel{\'y} and M. V{\'i}tkov{\'a} and Winkler, \{J. U.\} and M. Zummer and E. {\v Z}{\v d}{\'a}rsk{\'a}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025. Published by Oxford University Press on behalf of Royal Astronomical Society.",

year = "2026",

month = jan,

day = "1",

doi = "10.1093/mnras/staf1972",

language = "English",

volume = "545",

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

issn = "0035-8711",

publisher = "Oxford University Press",

number = "1",

}

Kabáth, P, Skarka, M, Hatzes, A, Guenther, E, Vanzi, L, Brahm, R, Janík, J, Pintr, P, Gajdoš, P, Lipták, J, Žák, J, Boffin, HMJ, Antonucci, L, Avila, G, Balkóová, Z, Ball, ME, Flores, M, Fuentes, A, Fuchs, J, Greimel, R, Gajardo, A, Ivanov, VD, Köhler, J, Leitzinger, M, Ludwig, MR, Moravčík, T, Nečásek, J, Neubert, RJU, Odert, P, Olguín, G, Pinto, MT, Roth, M, Řezba, L, Schaffenroth, V, Sigwarth, M, Srba, J, Suárez, A, Škoda, P, Šubjak, J, Václavík, J, Veselý, M, Veselý, R, Vítková, M, Winkler, JU, Zummer, M & Žďárská, E 2026, 'PLATOSpec: a precise spectrograph in support of space missions', Monthly Notices of the Royal Astronomical Society, vol. 545, n.º 1, staf1972. https://doi.org/10.1093/mnras/staf1972

TY - JOUR

T1 - PLATOSpec

T2 - a precise spectrograph in support of space missions

AU - Kabáth, P.

AU - Skarka, M.

AU - Hatzes, A.

AU - Guenther, E.

AU - Vanzi, L.

AU - Brahm, R.

AU - Janík, J.

AU - Pintr, P.

AU - Gajdoš, P.

AU - Lipták, J.

AU - Žák, J.

AU - Boffin, H. M.J.

AU - Antonucci, L.

AU - Avila, G.

AU - Balkóová, Z.

AU - Ball, M. E.

AU - Flores, M.

AU - Fuentes, A.

AU - Fuchs, J.

AU - Greimel, R.

AU - Gajardo, A.

AU - Ivanov, V. D.

AU - Köhler, J.

AU - Leitzinger, M.

AU - Ludwig, M. R.

AU - Moravčík, T.

AU - Nečásek, J.

AU - Neubert, R. J.U.

AU - Odert, P.

AU - Olguín, G.

AU - Pinto, M. Tala

AU - Roth, M.

AU - Řezba, L.

AU - Schaffenroth, V.

AU - Sigwarth, M.

AU - Srba, J.

AU - Suárez, A.

AU - Škoda, P.

AU - Šubjak, J.

AU - Václavík, J.

AU - Veselý, M.

AU - Veselý, R.

AU - Vítková, M.

AU - Winkler, J. U.

AU - Zummer, M.

AU - Žďárská, E.

PY - 2026/1/1

Y1 - 2026/1/1

N2 - The upcoming space missions that will characterize exoplanets, such as PLATO and Ariel, will collect huge amounts of data that will need to be complemented with ground-based observations. The aim of the PLATOSpec project is to perform science with an echelle spectrograph capable of measuring precise radial velocities. The main focus of the spectrograph will be to perform the initial screening and validation of exoplanetary candidates, in addition to study stellar variability. It will be possible to determine the physical properties of large exoplanets. The PLATOSpec blue-sensitive spectrograph, with a spectral range of 380–700nm and a resolving power of R = 70 000, is installed on the 1.5-m telescope at the ESO La Silla Observatory in Chile. Initial results show that the radial-velocity limit given by the wavelength calibration is about 2–3ms−1. Tests on bright F-K main-sequence standard stars reveal a scatter of about 5ms−1 over a few hours. The scatter over a few months is slightly higher. We demonstrate the capabilities of PLATOSpec on the mass determination of WASP-79b and the spin-orbit alignment of WASP-62b via the Rossiter–McLaughlin effect. We show its possible usage on variable star research as demonstrated on the false-positive exoplanetary candidate TIC238060327, which is proven a binary star. Investigation of line-profile variations of the roAp star α Cir shows that PLATOSpec can also be used for the surface mapping. Finally, we present new results on the active star UY Pic in the PLATO southern field. Our results show that PLATOSpec is a versatile spectrograph with great precision.

AB - The upcoming space missions that will characterize exoplanets, such as PLATO and Ariel, will collect huge amounts of data that will need to be complemented with ground-based observations. The aim of the PLATOSpec project is to perform science with an echelle spectrograph capable of measuring precise radial velocities. The main focus of the spectrograph will be to perform the initial screening and validation of exoplanetary candidates, in addition to study stellar variability. It will be possible to determine the physical properties of large exoplanets. The PLATOSpec blue-sensitive spectrograph, with a spectral range of 380–700nm and a resolving power of R = 70 000, is installed on the 1.5-m telescope at the ESO La Silla Observatory in Chile. Initial results show that the radial-velocity limit given by the wavelength calibration is about 2–3ms−1. Tests on bright F-K main-sequence standard stars reveal a scatter of about 5ms−1 over a few hours. The scatter over a few months is slightly higher. We demonstrate the capabilities of PLATOSpec on the mass determination of WASP-79b and the spin-orbit alignment of WASP-62b via the Rossiter–McLaughlin effect. We show its possible usage on variable star research as demonstrated on the false-positive exoplanetary candidate TIC238060327, which is proven a binary star. Investigation of line-profile variations of the roAp star α Cir shows that PLATOSpec can also be used for the surface mapping. Finally, we present new results on the active star UY Pic in the PLATO southern field. Our results show that PLATOSpec is a versatile spectrograph with great precision.

KW - instrumentation: spectrographs

KW - planets and satellites: general

KW - techniques: radial velocities

UR - https://www.scopus.com/pages/publications/105024463263

U2 - 10.1093/mnras/staf1972

DO - 10.1093/mnras/staf1972

M3 - Article

AN - SCOPUS:105024463263

SN - 0035-8711

VL - 545

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 1

M1 - staf1972

ER -

PLATOSpec: a precise spectrograph in support of space missions

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