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Dr. Rabus, Markus
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Dr. Rabus, Markus
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Rabus, Markus
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mrabus@ucsc.cl
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24 results
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Now showing 1 - 10 of 24
- PublicationAnother 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; ;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 ZhangEvan ZobelWe 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 - PublicationSix outbursts of comet 46P/Wirtanen(IOP Publishing, 2021)
; ;Kelley, Michael ;Farnham, Tony ;Li, Jian-Yang ;Bodewits, Dennis ;Snodgrass, Colin ;Allen, Johannes ;Bellm, Eric ;Coughlin, Michael ;Drake, Andrew ;Duev, Dmitry ;Graham, Matthew ;Kupfer, Thomas ;Masci, Frank ;Reiley, Dan ;Walters, Richard ;Dominik, M. ;Jørgensen, U. ;Andrews, A. ;Bach-Møller, N. ;Bozza, V. ;Burgdorf, M. ;Campbell-White, J. ;Dib, S. ;Fujii, Y. ;Hinse, T. ;Hundertmark, M. ;Khalouei, E. ;Longa-Peña, P. ;Rahvar, S. ;Sajadian, S. ;Skottfelt, J. ;Southworth, J. ;Tregloan-Reed, J.Unda-Sanzana, E.Cometary activity is a manifestation of sublimation-driven processes at the surface of nuclei. However, cometary outbursts may arise from other processes that are not necessarily driven by volatiles. In order to fully understand nuclear surfaces and their evolution, we must identify the causes of cometary outbursts. In that context, we present a study of mini-outbursts of comet 46P/Wirtanen. Six events are found in our long-term lightcurve of the comet around its perihelion passage in 2018. The apparent strengths range from −0.2 to −1.6 mag in a 5″ radius aperture and correspond to dust masses between ∼104 and 106 kg, but with large uncertainties due to the unknown grain size distributions. However, the nominal mass estimates are on the same order of magnitude as the mini-outbursts at comet 9P/Tempel 1 and 67P/Churyumov-Gerasimenko, events that were notably lacking at comet 103P/Hartley 2. We compare the frequency of outbursts at the four comets, and suggest that the surface of 46P has large-scale (∼10–100 m) roughness that is intermediate to that of 67P and 103P, if not similar to the latter. The strength of the outbursts appear to be correlated with time since the last event, but a physical interpretation with respect to solar insolation is lacking. We also examine Hubble Space Telescope images taken about two days following a near-perihelion outburst. No evidence for macroscopic ejecta was found in the image, with a limiting radius of about 2 m. - PublicationA close binary lens revealed by the Microlensing Event Gaia20bof(IOP Publishing, 2024)
; ;Bachelet, E. ;Rota, P. ;Bozza, V. ;Zieliński, P. ;Tsapras, Y. ;Hundertmark, M. ;Wambsganss, J. ;Wyrzykowski, Ł. ;Mikołajczyk, P. ;Street, R. ;Jaimes, R. Figuera ;Cassan, A. ;Dominik, M. ;Buckley, D. A. H. ;Awiphan, S. ;Nakhaharutai, N. ;Zola, S. ;Rybicki, K. ;Gromadzki, M. ;Howil, K. ;Ihanec, N. ;Jabłońska, M. ;Kruszyńska, K. ;Kruszyńska, K. ;Pylypenko, U. ;Ratajczak, M.Sitek, M.During the last 25 yr, hundreds of binary stars and planets have been discovered toward the Galactic bulge by microlensing surveys. Thanks to a new generation of large-sky surveys, it is now possible to regularly detect microlensing events across the entire sky. The OMEGA Key Projet at the Las Cumbres Observatory carries out automated follow-up observations of microlensing events alerted by these surveys with the aim of identifying and characterizing exoplanets as well as stellar remnants. In this study, we present the analysis of the binary lens event Gaia20bof. By automatically requesting additional observations, the OMEGA Key Project obtained dense time coverage of an anomaly near the peak of the event, allowing characterization of the lensing system. The observed anomaly in the lightcurve is due to a binary lens. However, several models can explain the observations. Spectroscopic observations indicate that the source is located at ≤2.0 kpc, in agreement with the parallax measurements from Gaia. While the models are currently degenerate, future observations, especially the Gaia astrometric time series as well as high-resolution imaging, will provide extra constraints to distinguish between them. - PublicationGiant outer transiting exoplanet mass (GOT ’EM) survey. III. Recovery and confirmation of a temperate, mildly eccentric, single-transit Jupiter orbiting TOI-2010(IOP Publishing, 2023)
; ;Mann, Christopher ;Dalba, Paul ;Lafrenière, David ;Fulton, Benjamin ;Hébrard, Guillaume ;Boisse, Isabelle ;Dalal, Shweta ;Deleuil, Magali ;Delfosse, Xavier ;Demangeon, Olivier ;Forveille, Thierry ;Heidari, Neda ;Kiefer, Flavien ;Martioli, Eder ;Moutou, Claire ;Endl, Michael ;Cochran, William ;MacQueen, Phillip ;Marchis, Franck ;Dragomir, Diana ;Gupta, Arvind ;Feliz, Dax ;Nicholson, Belinda ;Ziegler, Carl ;Villanueva, Steven ;Rowe, Jason ;Talens, Geert Jan ;Thorngren, Daniel ;LaCourse, Daryll ;Jacobs, Tom ;Howard, Andrew ;Bieryla, Allyson ;Latham, David ;Fetherolf, Tara ;Hellier, Coel ;Howell, Steve ;Plavchan, Peter ;Reefe, Michael ;Combs, Deven ;Bowen, Michael ;Wittrock, Justin ;Ricker, George ;Seager, S. ;Winn, Joshua ;Jenkins, Jon ;Barclay, Thomas ;Watanabe, David ;Collins, Karen ;Eastman, JasonTing, EricLarge-scale exoplanet surveys like the Transiting Exoplanet Survey Satellite (TESS) mission are powerful tools for discovering large numbers of exoplanet candidates. Single-transit events are commonplace within the resulting candidate list due to the unavoidable limitation of the observing baseline. These single-transit planets often remain unverified due to their unknown orbital periods and consequent difficulty in scheduling follow-up observations. In some cases, radial velocity (RV) follow up can constrain the period enough to enable a future targeted transit detection. We present the confirmation of one such planet: TOI-2010 b. Nearly three years of RV coverage determined the period to a level where a broad window search could be undertaken with the Near-Earth Object Surveillance Satellite, detecting an additional transit. An additional detection in a much later TESS sector solidified our final parameter estimation. We find TOI-2010 b to be a Jovian planet (MP = 1.29 MJup, RP = 1.05 RJup) on a mildly eccentric orbit (e = 0.21) with a period of P = 141.83403 days. Assuming a simple model with no albedo and perfect heat redistribution, the equilibrium temperature ranges from about 360 to 450 K from apastron to periastron. Its wide orbit and bright host star (V = 9.85) make TOI-2010 b a valuable test bed for future lowinsolation atmospheric analysis. - PublicationUpdated orbital monitoring and dynamical masses for nearby M-dwarf binaries(EDP Sciences, 2022)
; ;Calissendorff, Per ;Janson, Markus ;Rodet, Laetitia ;Köhler, Rainer ;Bonnefoy, Mickaël ;Brandner, Wolfgang ;Brown-Sevilla, Samantha ;Chauvin, Gaël ;Delorme, Philippe ;Desidera, Silvano ;Durkan, Stephen ;Fontanive, Clemence ;Gratton, Raffaele ;Hagelberg, Janis ;Henning, Thomas ;Hippler, Stefan ;Lagrange, Anne-Marie ;Langlois, Maud ;Lazzoni, Cecilia ;Maire, Anne-Lise ;Messina, Sergio ;Meyer, Michael ;Möller-Nilsson, Ole ;Schlieder, Joshua ;Vigan, Arthur ;Wahhaj, Zahed ;Wildi, FrancoisZurlo, AliceYoung M-type binaries are particularly useful for precise isochronal dating by taking advantage of their extended pre-main sequence evolution. Orbital monitoring of these low-mass objects becomes essential in constraining their fundamental properties, as dynamical masses can be extracted from their Keplerian motion. Here, we present the combined efforts of the AstraLux Large Multiplicity Survey, together with a filler sub-programme from the SpHere INfrared Exoplanet (SHINE) project and previously unpublished data from the FastCam lucky imaging camera at the Nordical Optical Telescope (NOT) and the NaCo instrument at the Very Large Telescope (VLT). Building on previous work, we use archival and new astrometric data to constrain orbital parameters for 20 M-type binaries. We identify that eight of the binaries have strong Bayesian probabilities and belong to known young moving groups (YMGs). We provide a first attempt at constraining orbital parameters for 14 of the binaries in our sample, with the remaining six having previously fitted orbits for which we provide additional astrometric data and updated Gaia parallaxes. The substantial orbital information built up here for four of the binaries allows for direct comparison between individual dynamical masses and theoretical masses from stellar evolutionary model isochrones, with an additional three binary systems with tentative individual dynamical mass estimates likely to be improved in the near future. We attained an overall agreement between the dynamical masses and the theoretical masses from the isochrones based on the assumed YMG age of the respective binary pair. The two systems with the best orbital constrains for which we obtained individual dynamical masses, J0728 and J2317, display higher dynamical masses than predicted by evolutionary models. - PublicationTOI 560: Two Transiting Planets Orbiting a K Dwarf Validated with iSHELL, PFS, and HIRES RVs(American Astronomical Society, 2023)
;Mohammed El Mufti ;Peter P. Plavchan ;Howard Isaacson ;Bryson L. Cale ;Dax L. Feliz ;Michael A. Reefe ;Coel Hellier ;Keivan Stassun ;Jason Eastman ;Alex Polanski ;Ian J. M. Crossfield ;Eric Gaidos ;Veselin Kostov ;Justin M. Wittrock ;Joel Villaseñor ;Joshua E. Schlieder ;Luke G. Bouma ;Kevin I. Collins ;Farzaneh Zohrabi ;Rena A. Lee ;Ahmad Sohani ;John Berberian ;David Vermilion ;Patrick Newman ;Claire Geneser ;Angelle TanneR ;Natalie M. Batalha ;Courtney Dressing ;Benjamin Fulton ;Andrew W. Howard ;Daniel Huber ;Stephen R. Kane ;Erik A. Petigura ;Paul Robertson ;Arpita Roy ;Lauren M. Weiss ;Aida Behmard ;Corey Beard ;Ashley Chontos ;Fei Dai ;Paul A. Dalba ;Tara Fetherolf ;Steven Giacalone ;Michelle L. Hill ;Lea A. Hirsch ;Rae Holcomb ;Jack Lubin ;Andrew Mayo ;Teo Monik ;Joseph M. Akana Murphy ;Lee J. Rosenthal ;Ryan A. Rubenzahl ;Nicholas Scarsdale ;Christopher Stockdale ;Karen Collins ;Ryan Cloutier ;Howard Relle ;Thiam-Guan Tan ;Nicholas J Scott ;Zach Hartman ;Elisabeth Matthews ;David R. Ciardi ;Erica Gonzales ;Rachel A. Matson ;Charles Beichman ;Allyson Bieryla ;E. Furlan ;Crystal L. Gnilka ;Steve B. Howell ;Carl Ziegler ;César Briceño ;Nicholas Law ;Andrew W. Mann; ;Marshall C. Johnson ;Jessie Christiansen ;Laura Kreidberg ;David Anthony Berardo ;Drake Deming ;Varoujan Gorjian ;Farisa Y. Morales ;Björn Benneke ;Diana Dragomir ;Robert A. Wittenmyer ;Sarah Ballard ;Brendan P. Bowler ;Jonathan Horner ;John Kielkopf ;Huigen Liu ;Avi Shporer ;G. Tinney ;Hui Zhang ;Duncan J. Wright ;Brett C. Addison ;Matthew W. MengelJack OkumuraWe validate the presence of a two-planet system orbiting the 0.15–1.4 Gyr K4 dwarf TOI 560 (HD 73583). The system consists of an inner moderately eccentric transiting mini-Neptune (TOI 560 b, P 6.3980661 0.00000970.0000095 = -+ days,e 0.294 0.0620.13= -+ , M M0.94 0.230.31 Nep= -+ ) initially discovered in the Sector 8 Transiting Exoplanet Survey Satellite (TESS) mission observations, and a transiting mini-Neptune (TOI 560 c, P 18.8805 0.00110.0024 = - + days, M M1.32 0.320.29 Nep= -+ ) discovered in the Sector 34 observations, in a rare near-1:3 orbital resonance. We utilize photometric data from TESS Spitzer, and ground-based follow-up observations to confirm the ephemerides and period of the transiting planets, vet false-positive scenarios, and detect the photoeccentric effect for TOI 560 b. We obtain follow-up spectroscopy and corresponding precise radial velocities (RVs) with the iSHELL spectrograph at the NASA Infrared Telescope Facility and the HIRES Spectrograph at Keck Observatory to validate the planetary nature of these signals, which we combine with published Planet Finder Spectrograph RVs from the Magellan Observatory. We detect the masses of both planets at >3σ significance. We apply a Gaussian process (GP) model to the TESS light curves to place priors on a chromatic RV GP model to constrain the stellar activity of the TOI 560 host star, and confirm a strong wavelength dependence for the stellar activity demonstrating the ability of near-IR RVs to mitigate stellar activity for young K dwarfs. TOI 560 is a nearby moderately young multiplanet system with two planets suitable for atmospheric characterization with the James Webb Space Telescope and other upcoming missions. In particular, it will undergo six transit pairs separated by <6 hr before 2027 June. - PublicationEjecta evolution following a planned impact into an asteroid: The first five weeks(IOP Publishing, 2023)
; ;Kareta, Theodore ;Thomas, Cristina ;Li, Jian-Yang ;Knight, Matthew ;Moskovitz, Nicholas ;Rożek, Agata ;Bannister, Michele ;Ieva, Simone ;Snodgrass, Colin ;Pravec, Petr ;Ryan, Eileen ;Ryan, William H. ;Fahnestock, Eugene ;Rivkin, Andrew ;Chabot, Nancy ;Fitzsimmons, Alan ;Osip, David ;Lister, Tim ;Sarid, Gal ;Hirabayashi, Masatoshi ;Farnham, Tony ;Tancredi, Gonzalo ;Michel, Patrick ;Wainscoat, Richard ;Weryk, Rob ;Burrati, Bonnie ;Pittichová, Jana ;Ridden-Harper, Ryan ;Tan, Nicole ;Tristram, Paul ;Brown, Tyler ;Bonavita, Mariangela ;Burgdorf, Martin ;Khalouei, Elahe ;Longa, Penelope ;Sajadian, Sedighe ;Jorgensen, Uffe Graae ;Dominik, Martin ;Kikwaya, Jean-Baptiste ;Mazzotta Epifani, Elena ;Dotto, Elisabetta ;Deshapriya, Prasanna ;Hasselmann, Pedro ;Dall’Ora, Massimo ;Abe, Lyu ;Guillot, Tristan ;Mékarnia, Djamel ;Agabi, Abdelkrim ;Bendjoya, Philippe ;Suarez, Olga ;Triaud, Amaury ;Gasparetto, Thomas ;Günther, Maximillian ;Kueppers, Michael ;Merin, Bruno ;Chatelain, Joseph ;Gomez, Edward ;Usher, Helen ;Stoddard-Jones, Cai ;Bartnik, Matthew ;Bellaver, Michael ;Chetan, Brenna ;Dugan, Emma ;Fallon, Tori ;Fedewa, Jeremy ;Gerhard, Caitlyn ;Jacobson, Seth ;Painter, Shane ;Peterson, David-Michael ;Rodriguez, Joseph ;Smith, Cody ;Sokolovsky, Kirill ;Sullivan, Hannah ;Townley, Kate ;Watson, Sarah ;Webb, Levi ;Trigo-Rodríguez, Josep ;Llenas, Josep ;Pérez-García, Ignacio ;Castro-Tirado, A. ;Vincent, Jean-Baptiste ;Migliorini, Alessandra ;Lazzarin, Monica ;La Forgia, Fiorangela ;Ferrari, Fabio ;Polakis, TomSkiff, BrianThe impact of the Double Asteroid Redirection Test spacecraft into Dimorphos, moon of the asteroid Didymos, changed Dimorphos’s orbit substantially, largely from the ejection of material. We present results from 12 Earth-based facilities involved in a world-wide campaign to monitor the brightness and morphology of the ejecta in the first 35 days after impact. After an initial brightening of ∼1.4 mag, we find consistent dimming rates of 0.11–0.12 mag day−1 in the first week, and 0.08–0.09 mag day−1 over the entire study period. The system returned to its pre-impact brightness 24.3–25.3 days after impact though the primary ejecta tail remained. The dimming paused briefly eight days after impact, near in time to the appearance of the second tail. This was likely due to a secondary release of material after re-impact of a boulder released in the initial impact, though movement of the primary ejecta through the aperture likely played a role. - PublicationOptical monitoring of the Didymos–Dimorphos asteroid system with the Danish Telescope around the DART mission impact(IOP Publishing, 2023)
; ;Rożek, Agata ;Snodgrass, Colin ;Jørgensen, Uffe ;Pravec, Petr ;Bonavita, Mariangela ;Khalouei, Elahe ;Longa-Peña, Penélope ;Burgdorf, Martin ;Donaldson, Abbie ;Gardener, Daniel ;Crake, Dennis ;Sajadian, Sedighe ;Bozza, Valerio ;Skottfelt, Jesper ;Dominik, Martin ;Fynbo, J. ;Hinse, Tobias ;Hundertmark, Markus ;Rahvar, Sohrab ;Southworth, John ;Tregloan-Reed, Jeremy ;Kretlow, Mike ;Rota, Paolo ;Peixinho, Nuno ;Andersen, Michael ;Amadio, Flavia ;Barrios-López, DanielaCastillo-Baeza, NoraThe NASA’s Double-Asteroid Redirection Test (DART) was a unique planetary defence and technology test mission, the first of its kind. The main spacecraft of the DART mission impacted the target asteroid Dimorphos, a small moon orbiting the asteroid Didymos (65803), on 2022 September 26. The impact brought up a mass of ejecta which, together with the direct momentum transfer from the collision, caused an orbital period change of 33 ± 1 minutes, as measured by ground-based observations. We report here the outcome of the optical monitoring campaign of the Didymos system from the Danish 1.54 m telescope at La Silla around the time of impact. The observations contributed to the determination of the changes in the orbital parameters of the Didymos–Dimorphos system, as reported by Thomas et al., but in this paper we focus on the ejecta produced by the DART impact. We present photometric measurements from which we remove the contribution from the Didymos–Dimorphos system using an H–G photometric model. Using two photometric apertures we determine the fading rate of the ejecta to be 0.115 ± 0.003 mag day−1 (in a 2″ aperture) and 0.086 ± 0.003 mag day−1 (5″) over the first week postimpact. After about 8 days postimpact we note the fading slows down to 0.057 ± 0.003 mag day−1 (2″ aperture) and 0.068 ± 0.002 mag day−1 (5″). We include deep-stacked images of the system to illustrate the ejecta evolution during the first 18 days, noting the emergence of dust tails formed from ejecta pushed in the antisolar direction, and measuring the extent of the particles ejected Sunward to be at least 4000 km. - PublicationA sub-Neptune transiting the young field star HD 18599 at 40 pc(Monthly Notices of the Royal Astronomical Society, 2023)
; ;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. ;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. - PublicationPhotometry of the Didymos System across the DART impact apparition(IOP Publishing, 2024)
; ;Moskovitz, Nicholas ;Thomas, Cristina ;Pravec, Petr ;Lister, Tim ;Polakis, Tom ;Osip, David ;Kareta, Theodore ;Rożek, Agata ;Chesley, Steven ;Naidu, Shantanu ;Scheirich, Peter ;Ryan, William ;Ryan, Eileen ;Skiff, Brian ;Snodgrass, Colin ;Knight, Matthew ;Rivkin, Andrew ;Chabot, Nancy ;Ayvazian, Vova ;Belskaya, Irina ;Benkhaldoun, Zouhair ;Berteşteanu, Daniel ;Bonavita, Mariangela ;Bressi, Terrence ;Brucker, Melissa ;Burgdorf, Martin ;Burkhonov, Otabek ;Burt, Brian ;Contreras, Carlos ;Chatelain, Joseph ;Choi, Young-Jun ;Daily, Matthew ;de León, Julia ;Ergashev, Kamoliddin ;Farnham, Tony ;Fatka, Petr ;Ferrais, Marin ;Geier, Stefan ;Gomez, Edward ;Greenstreet, Sarah ;Gröller, Hannes ;Hergenrother, Carl ;Holt, Carrie ;Hornoch, Kamil ;Husárik, Marek ;Inasaridze, Raguli ;Jehin, Emmanuel ;Khalouei, Elahe ;Eluo, Jean-Baptiste ;Kim, Myung-Jin ;Krugly, Yurij ;Kučáková, Hana ;Kušnirák, Peter ;Larsen, Jeffrey ;Lee, Hee-Jae ;Lejoly, Cassandra ;Licandro, Javier ;Longa-Peña, Penélope ;Mastaler, Ronald ;McCully, Curtis ;Moon, Hong-Kyu ;Morrell, Nidia ;Nath, Arushi ;Oszkiewicz, Dagmara ;Parrott, Daniel ;Phillips, Liz ;Popescu, Marcel ;Pray, Donald ;Prodan, George Pantelimon ;Read, Michael ;Reva, Inna ;Roark, Vernon ;Santana-Ros, Toni ;Scotti, James ;Tatara, Taiyo ;Thirouin, Audrey ;Tholen, David ;Troianskyi, Volodymyr ;Tubbiolo, AndrewVilla, KatelynOn 2022 September 26, the Double Asteroid Redirection Test (DART) spacecraft impacted Dimorphos, the satellite of binary near-Earth asteroid (65803) Didymos. This demonstrated the efficacy of a kinetic impactor for planetary defense by changing the orbital period of Dimorphos by 33 minutes. Measuring the period change relied heavily on a coordinated campaign of lightcurve photometry designed to detect mutual events (occultations and eclipses) as a direct probe of the satellite’s orbital period. A total of 28 telescopes contributed 224 individual lightcurves during the impact apparition from 2022 July to 2023 February. We focus here on decomposable lightcurves, i.e., those from which mutual events could be extracted. We describe our process of lightcurve decomposition and use that to release the full data set for future analysis. We leverage these data to place constraints on the postimpact evolution of ejecta. The measured depths of mutual events relative to models showed that the ejecta became optically thin within the first ∼1 day after impact and then faded with a decay time of about 25 days. The bulk magnitude of the system showed that ejecta no longer contributed measurable brightness enhancement after about 20 days postimpact. This bulk photometric behavior was not well represented by an HG photometric model. An HG1G2 model did fit the data well across a wide range of phase angles. Lastly, we note the presence of an ejecta tail through at least 2023 March. Its persistence implied ongoing escape of ejecta from the system many months after DART impact.
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