Dr. Rabus, Markus

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Dr. Rabus, Markus
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Rabus, Markus
Facultad
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mrabus@ucsc.cl
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20232
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Subject: Techniques: radial velocities ×

Research Outputs

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  • Thumbnail Image
    Publication
    Another shipment of six short-period giant planets from TESS
    (Royal Astronomical Society., 2023)
    Joseph E. Rodriguez
    ;
    Samuel N. Quinn
    ;
    Andrew Vanderburg
    ;
    George Zhou
    ;
    Jason D. Eastman
    ;
    Erica Thygesen
    ;
    Bryson Cale
    ;
    David R. Ciardi
    ;
    Phillip A. Reed
    ;
    Ryan J. Oelkers
    ;
    Karen A. Collins
    ;
    Allyson Bieryla
    ;
    David W. Latham
    ;
    Erica J. Gonzales
    ;
    B. Scott Gaudi
    ;
    Coel Hellier
    ;
    Matias I. Jones
    ;
    Rafael Brahm
    ;
    Kirill Sokolovsky
    ;
    Jack Schulte
    ;
    Gregor Srdoc
    ;
    John Kielkopf
    ;
    Ferran Grau Horta
    ;
    Bob Massey
    ;
    Phil Evans
    ;
    Denise C. Stephens
    ;
    Kim K. McLeod
    ;
    Nikita Chazov
    ;
    Vadim Krushinsky
    ;
    Mourad Ghachoui
    ;
    Boris S. Safonov
    ;
    Cayla M. Dedrick
    ;
    Dennis Conti
    ;
    Didier Laloum
    ;
    Steven Giacalone
    ;
    Carl Ziegler
    ;
    Pere Guerra Serra
    ;
    Ramon Naves Nogues
    ;
    Felipe Murgas
    ;
    Edward J. Michaels
    ;
    George R. Ricke
    ;
    Roland K. Vanderspek
    ;
    Sara Seager
    ;
    Joshua N. Winn
    ;
    Jon M. Jenkins
    ;
    Brett Addison
    ;
    Owen Alfaro
    ;
    D. R. Anderson
    ;
    Elias Aydi
    ;
    Thomas G. Beatty
    ;
    Timothy R. Bedding
    ;
    Alexander A. Belinski
    ;
    Zouhair Benkhaldoun
    ;
    Perry Berlind
    ;
    Cullen H. Blake
    ;
    Michael J. Bowen
    ;
    Brendan P. Bowler
    ;
    Andrew W. Boyle
    ;
    Dalton Branson
    ;
    Cesar Briceño
    ;
    Michael L. Calkins
    ;
    Emma Campbell
    ;
    Jessie L. Christiansen
    ;
    Laura Chomiuk
    ;
    Kevin I. Collins
    ;
    Matthew A.Cornachione
    ;
    Ahmed Daassou
    ;
    Courtney D. Dressing
    ;
    Gilbert A. Esquerdo
    ;
    Dax L. Feliz
    ;
    William Fong
    ;
    Akihiko Fukui
    ;
    Tianjun Gan
    ;
    Holden Gill
    ;
    Maria V. Goliguzova
    ;
    Jarrod Hansen
    ;
    Thomas Henning
    ;
    Eric G. Hintz
    ;
    Melissa J. Hobson
    ;
    Jonathan Horner
    ;
    Chelsea X. Huang
    ;
    David J. James
    ;
    Jacob S. Jensen
    ;
    amson A. Johnson
    ;
    Andres Jordan Stephen R. Kane
    ;
    Khalid Barkaoui
    ;
    Myung-Jin Kim
    ;
    Kingsley Kim
    ;
    Rudolf B. Kuhn
    ;
    Nicholas Law
    ;
    Pablo Lewin
    ;
    Hui-Gen Liu
    ;
    Michael B. Lund
    ;
    Andrew W. Mann
    ;
    Nate McCrady
    ;
    Matthew W. Mengel
    ;
    Jessica Mink
    ;
    Lauren G. Murphy
    ;
    Norio Narita
    ;
    Patrick Newman
    ;
    Jack Okumura
    ;
    Hugh P. Osborn
    ;
    Martin Paegert
    ;
    Enric Palle
    ;
    Joshua Pepper
    ;
    Peter Plavchan
    ;
    Alexander A. Popov
    ;
    Rabus, Markus 
    ;
    Jessica Ranshaw
    ;
    Jennifer A. Rodriguez
    ;
    Dong-Goo Roh
    ;
    Michael A. Reefe
    ;
    Arjun B. Savel
    ;
    Richard P. Schwarz
    ;
    Avi Shporer
    ;
    Robert J. Siverd
    ;
    David H. Sliski
    ;
    Keivan G. Stassun
    ;
    Daniel J. Stevens
    ;
    Abderahmane Soubkiou
    ;
    Eric B. Ting
    ;
    C. G. Tinney
    ;
    Noah Vowell
    ;
    Payton Walton
    ;
    R. G. West
    ;
    Maurice L. Wilson
    ;
    Robert A. Wittenmyer
    ;
    Justin M. Wittrock
    ;
    Shania Wolf
    ;
    Jason T. Wright
    ;
    Hui Zhang
    ;
    Evan Zobel
    We present the discovery and characterization of six short-period, transiting giant planets from NASA’s Transiting Exoplanet Survey Satellite (TESS) – TOI-1811 (TIC 376524552), TOI-2025 (TIC 394050135), TOI-2145 (TIC 88992642), TOI-2152 (TIC 395393265), TOI-2154 (TIC 428787891), and TOI-2497 (TIC 97568467). All six planets orbit bright host stars (8.9
  • Thumbnail Image
    Publication
    A sub-Neptune transiting the young field star HD 18599 at 40 pc
    (Monthly Notices of the Royal Astronomical Society, 2023)
    Dr. Rabus, Markus 
    ;
    De Leon, J.
    ;
    Livingston, J.
    ;
    Jenkins, S.
    ;
    Vines, J.
    ;
    Wittenmyer, R.
    ;
    Clark, J.
    ;
    Winn, J.
    ;
    Addison, B.
    ;
    Ballard, S.
    ;
    Bayliss, D.
    ;
    Beichman, C.
    ;
    Benneke, B.
    ;
    Berardo, D.
    ;
    Bowler, B.
    ;
    Brown, T.
    ;
    Bryant, E.
    ;
    Christiansen, J.
    ;
    Ciardi, D.
    ;
    Collins, K.
    ;
    Collins, K.
    ;
    Crossfield, I.
    ;
    Deming, D.
    ;
    Dragomir, D.
    ;
    Dressing, C.
    ;
    Fukui, A.
    ;
    Gan, T.
    ;
    Giacalone, S.
    ;
    Gill, S.
    ;
    Gorjian, V.
    ;
    Gonzalez-Álvarez, E.
    ;
    Hesse, K.
    ;
    Horner, J.
    ;
    Howell, S.
    ;
    Jenkins, J.
    ;
    Kane, S.
    ;
    Kendall, A.
    ;
    Kielkopf, J.
    ;
    Kreidberg, L.
    ;
    Latham, D.
    ;
    Liu, H.
    ;
    Lund, M.
    ;
    Matson, R.
    ;
    Matthews, E.
    ;
    Mengel, M.
    ;
    Morales, F.
    ;
    Mori, M.
    ;
    Narita, N.
    ;
    Nishiumi, T.
    ;
    Okumura, J.
    ;
    Plavchan, P.
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    Quinn, S.
    ;
    Ricker, G.
    ;
    Rudat, A.
    ;
    Schlieder, J.
    ;
    Schwarz, R.
    ;
    Seager, S.
    ;
    Shporer, A.
    ;
    Smith, A.
    ;
    Stassun, K.
    ;
    Tamura, M.
    ;
    Tan, T.
    ;
    Tinney, C.
    ;
    Vanderspek, R.
    ;
    Werner, M.
    ;
    West, R.
    ;
    Wright, D.
    ;
    Zhang, H.
    ;
    Zhou, G.
    Transiting exoplanets orbiting young nearby stars are ideal laboratories for testing theories of planet formation and evolution. However, to date only a handful of stars with age <1 Gyr have been found to host transiting exoplanets. Here we present the discovery and validation of a sub-Neptune around HD 18599, a young (300 Myr), nearby (d = 40 pc) K star. We validate the transiting planet candidate as a bona fide planet using data from the TESS, Spitzer, and Gaia missions, ground-based photometry from IRSF, LCO, PEST, and NGTS, speckle imaging from Gemini, and spectroscopy from CHIRON, NRES, FEROS, and MINERVA-Australis. The planet has an orbital period of 4.13 d, and a radius of 2.7 R⊕. The RV data yields a 3-σ mass upper limit of 30.5 M⊕ which is explained by either a massive companion or the large observed jitter typical for a young star. The brightness of the host star (V∼9 mag) makes it conducive to detailed characterization via Doppler mass measurement which will provide a rare view into the interior structure of young planets.