Your search keyword '"Sipőcz B."' showing total 120 results

1. Gaia Photometric Science Alerts

Author

Hodgkin, S. T., Harrison, D. L., Breedt, E., Wevers, T., Rixon, G., Delgado, A., Yoldas, A., Kostrzewa-Rutkowska, Z., Wyrzykowski, Ł., van Leeuwen, M., Blagorodnova, N., Campbell, H., Eappachen, D., Fraser, M., Ihanec, N., Koposov, S. E., Kruszyńska, K., Marton, G., Rybicki, K. A., Brown, A. G. A., Burgess, P. W., Busso, G., Cowell, S., De Angeli, F., Diener, C., Evans, D. W., Gilmore, G., Holland, G., Jonker, P. G., van Leeuwen, F., Mignard, F., Osborne, P. J., Portell, J., Prusti, T., Richards, P. J., Riello, M., Seabroke, G. M., Walton, N. A., Ábrahám, Péter, Altavilla, G., Baker, S. G., Bastian, U., O'Brien, P., de Bruijne, J., Butterley, T., Carrasco, J. M., Castañeda, J., Clark, J. S., Clementini, G., Copperwheat, C. M., Cropper, M., Damljanovic, G., Davidson, M., Davis, C. J., Dennefeld, M., Dhillon, V. S., Dolding, C., Dominik, M., Esquej, P., Eyer, L., Fabricius, C., Fridman, M., Froebrich, D., Garralda, N., Gomboc, A., González-Vidal, J. J., Guerra, R., Hambly, N. C., Hardy, L. K., Holl, B., Hourihane, A., Japelj, J., Kann, D. A., Kiss, C., Knigge, C., Kolb, U., Komossa, S., Kóspál, Á., Kovács, G., Kun, M., Leto, G., Lewis, F., Littlefair, S. P., Mahabal, A. A., Mundell, C. G., Nagy, Z., Padeletti, D., Palaversa, L., Pigulski, A., Pretorius, M. L., van Reeven, W., Ribeiro, V. A. R. M., Roelens, M., Rowell, N., Schartel, N., Scholz, A., Schwope, A., Sipőcz, B. M., Smartt, S. J., Smith, M. D., Serraller, I., Steeghs, D., Sullivan, M., Szabados, L., Szegedi-Elek, E., Tisserand, P., Tomasella, L., van Velzen, S., Whitelock, P. A, Wilson, R. W., and Young, D. R.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Since July 2014, the Gaia mission has been engaged in a high-spatial-resolution, time-resolved, precise, accurate astrometric, and photometric survey of the entire sky. Aims: We present the Gaia Science Alerts project, which has been in operation since 1 June 2016. We describe the system which has been developed to enable the discovery and publication of transient photometric events as seen by Gaia. Methods: We outline the data handling, timings, and performances, and we describe the transient detection algorithms and filtering procedures needed to manage the high false alarm rate. We identify two classes of events: (1) sources which are new to Gaia and (2) Gaia sources which have undergone a significant brightening or fading. Validation of the Gaia transit astrometry and photometry was performed, followed by testing of the source environment to minimise contamination from Solar System objects, bright stars, and fainter near-neighbours. Results: We show that the Gaia Science Alerts project suffers from very low contamination, that is there are very few false-positives. We find that the external completeness for supernovae, $C_E=0.46$, is dominated by the Gaia scanning law and the requirement of detections from both fields-of-view. Where we have two or more scans the internal completeness is $C_I=0.79$ at 3 arcsec or larger from the centres of galaxies, but it drops closer in, especially within 1 arcsec. Conclusions: The per-transit photometry for Gaia transients is precise to 1 per cent at $G=13$, and 3 per cent at $G=19$. The per-transit astrometry is accurate to 55 milliarcseconds when compared to Gaia DR2. The Gaia Science Alerts project is one of the most homogeneous and productive transient surveys in operation, and it is the only survey which covers the whole sky at high spatial resolution (subarcsecond), including the Galactic plane and bulge., Comment: 26 pages, 26 figures, accepted for publication in Astronomy & Astrophysics

Published

2021

2. WTS-2 b: Too close for comfort?

Author

Kovács G., Sipőcz B., Pinfield D.J., Hodgkin S.T., Mustill A., Ivanyuk O., Koppenhoefer J., Cruz P., Cappetta M., Birkby J.L., Saglia R., and Pavlenko Y.

Subjects

Physics, QC1-999

Abstract

We report the discovery of WTS-2 b, a typical hot Jupiter in an unusually close 1.02-day orbit to a K-dwarf star. This is the second planet to be discovered in the infrared light curves of the WFCAM Transit Survey (WTS) and is only one-and-a-half times the separation from its host star at which is would be destroyed by Roche lobe overflow. The predicted remaining lifetime of the planet is just 38 Myrs, assuming a tidal dissipation quality factor of Q'* = 106. The magnitude of Q'* is largely unconstrained by observations, thus WTS-2 b provides a useful calibration point for theories describing how frictional processes within a host star affect the tidal orbital evolution of its companion giant planets. It is expected that stars with large convective envelopes are more efficient at dissipating the orbital energy of the planet, and WTS-2 b provides an observational constraint in the sparsely populated K-dwarf regime. In addition, despite its relatively faint magnitude, the favourable size ratio of the WTS-2 star-planet system and the predicted hot equilibrium temperature of the planet will make it possible to characterise the planet's atmosphere via secondary eclipse measurements using existing ground-based instrumentation.

Published

2013

3. Periodic variability of spotted M dwarfs in WTS

Author

Sipőcz B., Catalán S., Hodgkin S., Birkby J., del Burgo C., Kovács G., Pinfield D.J., Barnes J.R., Goulding N.T., Jones H.R.A., Jeffers S.V., and Nefs S.

Subjects

Physics, QC1-999

Abstract

We present an analysis of the photometric variability of M dwarfs in the WFCAM Transit Survey, selected from spectral types inferred by their WTS and SDSS colours, with periods detected using a Lomb-Scargle Periodogram Analisys. We estimate population membership of these objects from their tangential velocities and photometric parralaxes. Examples of M dwarfs with variable light curve morphologuies are found. We discuss possible causes for this and make use of models of spotted stars in our interpretation of the results.

Published

2013

4. WTS1 b: The first planet detected in the WFCAM Transit Survey

Author

Cruz P., Hodgkin S.T., Pinfield D.J., Koppenhoefer J., Saglia R.P., Birkby J.L., Cappetta M., Kovács G., and Sipőcz B.

Subjects

Physics, QC1-999

Abstract

We report the discovery of WTS1 b, the first extrasolar planet found by the WFCAM Transit Survey. For one of the most promising transiting candidates, high-resolution spectra taken at the Hobby-Eberly Telescope (HET) allowed us to estimate the spectroscopic parameters of the host star, a late-F main sequence dwarf (V = 16.13), and to measure its radial velocity variations. The combined analysis of the light curves and spectroscopic data resulted in an orbital period of the companion of 3.35 days, a planetary mass of 4.01 ± 0.35 MJ, and a planetary radius of 1.49 +0.16-0.18 RJ. WTS1 b has one of the largest radius anomalies among the known hot Jupiters in the mass range 3–5 MJ.

Published

2013

5. Precision photometry with difference imaging in the WTS

Author

Pinfield D.J., Kovács G., Hodgkin S.T., Birkby J.L., Saglia R.P., Zendejas J., Koppenhoefer J., and Sipőcz B.

Subjects

Physics, QC1-999

Abstract

The Wide Field Camera Transit Survey is a pioneer program aimed to search for extra-solar planets in the near-infrared. The standard data reduction pipeline of the program uses aperture photometry to construct the light curves. We alternatively apply the difference imaging method for the most complete field in the survey and carry out a quantitative comparison between the photometric precision of both methods. We also report an implementation on the box-fitting detection algorithm, which performs a trapezoid-fit to the folded light curve. Subsequently we apply a set of selection criteria to the light curves to search for transit candidates, incorporating a parameter to characterize the shape of the transit. We carry out a detailed analysis of 11 candidates and provide a classification scheme to separate binary from planet candidates. Furthermore we report the detection of five faint extremely-short period eclipsing binary systems with periods shorter than 0.23 days and one candidate M-dwarf/M-dwarf eclipsing binary.

Published

2013

6. Hot Jupiters around M dwarfs

Author

Murgas F., Martín E., Koppenhoefer J., Cruz P., Cappetta M., Birkby J., Barrado D., Pinfield D., Sipőcz B., Hodgkin S., Kovács Gábor, Nefs B., Saglia R., and Zendejas J.

Subjects

Physics, QC1-999

Abstract

The WFCAM Transit Survey (WTS) is a near-infrared transit survey running on the United Kingdom Infrared Telescope (UKIRT). We conduct Monte Carlo transit injection and detection simulations for short period (

Published

2013

7. The WFCAM Transit Survey

Author

Hodgkin S., Pinfield D., Sipőcz B., and Kovács G.

Subjects

Physics, QC1-999

Abstract

The WFCAM Transit Survey (WTS) has been obtaining data on the United Kingdom Infrared Telescope since 2007. The WTS targets about 8,000 M dwarfs over several square degrees of sky, and aims to find low-mass eclipsing binaries and planets, down to the size of the Earth, transiting M dwarf stars with periods up to a few days.

Published

2011

8. The Astropy Project: Building an inclusive, open-science project and status of the v2.0 core package

Author

The Astropy Collaboration, Price-Whelan, A. M., Sipőcz, B. M., Günther, H. M., Lim, P. L., Crawford, S. M., Conseil, S., Shupe, D. L., Craig, M. W., Dencheva, N., Ginsburg, A., VanderPlas, J. T., Bradley, L. D., Pérez-Suárez, D., de Val-Borro, M., Aldcroft, T. L., Cruz, K. L., Robitaille, T. P., Tollerud, E. J., Ardelean, C., Babej, T., Bachetti, M., Bakanov, A. V., Bamford, S. P., Barentsen, G., Barmby, P., Baumbach, A., Berry, K. L., Biscani, F., Boquien, M., Bostroem, K. A., Bouma, L. G., Brammer, G. B., Bray, E. M., Breytenbach, H., Buddelmeijer, H., Burke, D. J., Calderone, G., Rodríguez, J. L. Cano, Cara, M., Cardoso, J. V. M., Cheedella, S., Copin, Y., Crichton, D., DÁvella, D., Deil, C., Depagne, É., Dietrich, J. P., Donath, A., Droettboom, M., Earl, N., Erben, T., Fabbro, S., Ferreira, L. A., Finethy, T., Fox, R. T., Garrison, L. H., Gibbons, S. L. J., Goldstein, D. A., Gommers, R., Greco, J. P., Greenfield, P., Groener, A. M., Grollier, F., Hagen, A., Hirst, P., Homeier, D., Horton, A. J., Hosseinzadeh, G., Hu, L., Hunkeler, J. S., Ivezić, Ž., Jain, A., Jenness, T., Kanarek, G., Kendrew, S., Kern, N. S., Kerzendorf, W. E., Khvalko, A., King, J., Kirkby, D., Kulkarni, A. M., Kumar, A., Lee, A., Lenz, D., Littlefair, S. P., Ma, Z., Macleod, D. M., Mastropietro, M., McCully, C., Montagnac, S., Morris, B. M., Mueller, M., Mumford, S. J., Muna, D., Murphy, N. A., Nelson, S., Nguyen, G. H., Ninan, J. P., Nöthe, M., Ogaz, S., Oh, S., Parejko, J. K., Parley, N., Pascual, S., Patil, R., Patil, A. A., Plunkett, A. L., Prochaska, J. X., Rastogi, T., Janga, V. Reddy, Sabater, J., Sakurikar, P., Seifert, M., Sherbert, L. E., Sherwood-Taylor, H., Shih, A. Y., Sick, J., Silbiger, M. T., Singanamalla, S., Singer, L. P., Sladen, P. H., Sooley, K. A., Sornarajah, S., Streicher, O., Teuben, P., Thomas, S. W., Tremblay, G. R., Turner, J. E. H., Terrón, V., van Kerkwijk, M. H., de la Vega, A., Watkins, L. L., Weaver, B. A., Whitmore, J. B., Woillez, J., and Zabalza, V.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Astropy project supports and fosters the development of open-source and openly-developed Python packages that provide commonly-needed functionality to the astronomical community. A key element of the Astropy project is the core package Astropy, which serves as the foundation for more specialized projects and packages. In this article, we provide an overview of the organization of the Astropy project and summarize key features in the core package as of the recent major release, version 2.0. We then describe the project infrastructure designed to facilitate and support development for a broader ecosystem of inter-operable packages. We conclude with a future outlook of planned new features and directions for the broader Astropy project., Comment: Minor changes to author list and title. Comments and feedback welcome through the paper source repository: https://github.com/astropy/astropy-v2.0-paper For more information about Astropy, see http://www.astropy.org/

Published

2018

9. Physical properties of the extreme centaur and super-comet candidate 2013 AZ60

Author

Pál, A., Kiss, Cs., Horner, J., Szakáts, R., Vilenius, E., Müller, Th. G., Acosta-Pulido, J., Licandro, J., Cabrera-Lavers, A., Sárneczky, K., Szabó, Gy. M., Thirouin, A., Sipőcz, B., Dózsa, Á., and Duffard, R.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present estimates of the basic physical properties -- including size and albedo -- of the extreme Centaur 2013 AZ60. These properties have been derived from optical and thermal infrared measurements. Our optical measurements revealed a likely full period of ~9.4 h with a shallow amplitude of 4.5%. By combining optical brightness information and thermal emission data, we are able to derive a diameter of 62.3 +/- 5.3 km and a geometric albedo of 2.9% -- corresponding to an extremely dark surface. Additionally, our finding of ~> 50 Jm^{-2}K^{-1}s^{-1/2} for the thermal inertia is also noticeably for objects in such a distance. The results of dynamical simulations yield an unstable orbit, with a 50% probability that the target will be ejected from the Solar System within 700,000 years. The current orbit of this object as well as its instability could imply a pristine cometary surface. This possibility is in agreement with the observed low geometric albedo and red photometric colour indices for the object, which are a good match for the surface of a dormant comet -- as would be expected for a long-period cometary body approaching perihelion. Despite the fact it was approaching ever closer to the Sun, however, the object exhibited star-like profiles in each of our observations, lacking any sign of cometary activity. By the albedo, 2013 AZ60 is a candidate for the darkest body among the known TNOs., Comment: Accepted for publication in A&A

Published

2015

10. The first planet detected in the WTS: an inflated hot-Jupiter in a 3.35 day orbit around a late F-star [ERRATUM]

Author

Cappetta, M., Saglia, R. P., Birkby, J. L., Koppenhoefer, J., Pinfield, D. J., Hodgkin, S. T., Cruz, P., Kovacs, G., Sipocz, B., Barrado, D., Nefs, B., Pavlenko, Y. V., Fossati, L., del Burgo, C., Martin, E. L., Snellen, I., Barnes, J., Campbell, D. A., Catalan, S., Galvez-Ortiz, M. C., Goulding, N., Haswell, C., Ivanyuk, O., Jones, H., Kuznetsov, M., Lodieu, N., Marocco, F., Mislis, D., Murgas, F., Napiwotzki, R., Palle, E., Pollacco, D., Baro, L. Sarro, Solano, E., Steele, P., Stoev, H., Tata, R., and Zendejas, J.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We report the discovery of WTS-1b, the first extrasolar planet found by the WFCAM Transit Survey, which began observations at the 3.8-m United Kingdom Infrared Telescope (UKIRT) in August 2007. Light curves comprising almost 1200 epochs with a photometric precision of better than 1 per cent to J ~ 16 were constructed for ~60000 stars and searched for periodic transit signals. For one of the most promising transiting candidates, high-resolution spectra taken at the Hobby-Eberly Telescope (HET) allowed us to estimate the spectroscopic parameters of the host star, a late-F main sequence dwarf (V=16.13) with possibly slightly subsolar metallicity, and to measure its radial velocity variations. The combined analysis of the light curves and spectroscopic data resulted in an orbital period of the substellar companion of 3.35 days, a planetary mass of 4.01 +- 0.35 Mj and a planetary radius of 1.49+0.16-0.18 Rj. WTS-1b has one of the largest radius anomalies among the known hot Jupiters in the mass range 3-5 Mj. The high irradiation from the host star ranks the planet in the pM class., Comment: 16 pages, 10 figures

Published

2014

11. WTS-2 b: a hot Jupiter orbiting near its tidal destruction radius around a K-dwarf

Author

Birkby, J. L., Cappetta, M., Cruz, P., Koppenhoefer, J., Ivanyuk, O., Mustill, A. J., Hodgkin, S. T., Pinfield, D. J., Sipőcz, B., Kovács, G., Saglia, R., Pavlenko, Y., Barrado, D., Bayo, A., Campbell, D., Catalan, S., Fossati, L., Gálvez-Ortiz, M. -C., Kenworthy, M., Martín, J. Lillo-Box E. L., Mislis, D., de Mooij, E. J. W., Nefs, S. V., Snellen, I. A. G., Stoev, H., Zendejas, J., del Burgo, C., Barnes, J., Goulding, N., Haswell, C. A., Kuznetsov, M., Lodieu, N., Murgas, F., Palle, E., Solano, E., Steele, P., and Tata, R.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

We report the discovery of WTS-2 b, an unusually close-in 1.02-day hot Jupiter (Mp=1.12MJ, Rp=1.363RJ) orbiting a K2V star, which has a possible gravitationally-bound M-dwarf companion at 0.6 arcsec separation contributing ~20 percent of the total flux in the observed J-band light curve. The planet is only 1.5 times the separation from its host star at which it would be destroyed by Roche lobe overflow, and has a predicted remaining lifetime of just ~40 Myr, assuming a tidal dissipation quality factor of Q'*=10^6. Q'* is a key factor in determining how frictional processes within a host star affect the orbital evolution of its companion giant planets, but it is currently poorly constrained by observations. We calculate that the orbital decay of WTS-2 b would correspond to a shift in its transit arrival time of T_shift~17 seconds after 15 years assuming Q'*=10^6. A shift less than this would place a direct observational constraint on the lower limit of Q'* in this system. We also report a correction to the previously published expected T_shift for WASP-18 b, finding that T_shift=356 seconds after 10 years for Q'*=10^6, which is much larger than the estimated 28 seconds quoted in WASP-18 b discovery paper. We attempted to constrain Q'* via a study of the entire population of known transiting hot Jupiters, but our results were inconclusive, requiring a more detailed treatment of transit survey sensitivities at long periods. We conclude that the most informative and straight-forward constraints on Q'* will be obtained by direct observational measurements of the shift in transit arrival times in individual hot Jupiter systems. We show that this is achievable across the mass spectrum of exoplanet host stars within a decade, and will directly probe the effects of stellar interior structure on tidal dissipation., Comment: 21 pages, 16 figures, 6 tables, accepted for publication in MNRAS

Published

2014

12. A spectroscopic and proper motion search of Sloan digital Sky Survey: red subdwarfs in binary systems

Author

Zhang, Z. H., Pinfield, D. J., Burningham, B., Jones, H. R. A., Galvez-Ortiz, M. C., Catalan, S., Smart, R. L., Lepine, S., Clarke, J. R. A., Pavlenko, Ya. V., Murray, D. N., Kuznetsov, M. K., Day-Jones, A. C., Gomes, J., Marocco, F., and Sipocz, B.

Subjects

Astrophysics - Galaxy Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Red subdwarfs in binary systems are crucial for both model calibration and spectral classification. We search for red subdwarfs in binary systems from a sample of high proper motion objects with Sloan digital Sky Survey spectroscopy. We present here discoveries from this search, as well as highlight several additional objects of interest. We find 30 red subdwarfs in wide binary systems including: two with spectral type of esdM5.5, 6 companions to white dwarfs and 3 carbon enhanced red subdwarfs with normal red subdwarf companions. 15 red subdwarfs in our sample are partially resolved close binary systems. With this binary sample, we estimate the low limit of the red subdwarf binary fraction of ~ 10%. We find that the binary fraction goes down with decreasing masses and metallicities of red subdwarfs. A spectroscopic esdK7 subdwarf + white dwarf binary candidate is also reported. 30 new M subdwarfs have spectral type of >= M6 in our sample. We also derive relationships between spectral types and absolute magnitudes in the optical and near-infrared for M and L subdwarfs, and we present an M subdwarf sample with measured U, V, W space velocities., Comment: 26 pages, 19 figures

Published

2013

13. A sensitivity analysis of the WFCAM Transit Survey for short-period giant planets around M dwarfs

Author

Kovács, Gábor, Hodgkin, S., Sipőcz, B., Pinfield, D., Barrado, D., Birkby, J., Cappetta, M., Cruz, P., Koppenhoefer, J., Martín, E., Murgas, F., Nefs, B., Saglia, R., and Zendejas, J.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The WFCAM Transit Survey (WTS) is a near-infrared transit survey running on the United Kingdom Infrared Telescope (UKIRT), designed to discover planets around M dwarfs. The WTS acts as a poor-seeing backup programme for the telescope, and represents the first dedicated wide-field near-infrared transit survey. In this paper we describe the observing strategy of the WTS and the processing of the data to generate lightcurves. We describe the basic properties of our photometric data, and measure our sensitivity based on 950 observations. We show that the photometry reaches a precision of ~4mmag for the brightest unsaturated stars in lightcurves spanning almost 3 years. Optical (SDSS griz) and near-infrared (UKIRT ZYJHK) photometry is used to classify the target sample of 4600 M dwarfs with J magnitudes in the range 11-17. Most have spectral-types in the range M0-M2. We conduct Monte Carlo transit injection and detection simulations for short period (<10 day) Jupiter- and Neptune-sized planets to characterize the sensitivity of the survey. We investigate the recovery rate as a function of period and magnitude for 4 hypothetical star-planet cases: M0-2+Jupiter, M2-4+Jupiter, M0-2+Neptune, M2-4+Neptune. We find that the WTS lightcurves are very sensitive to the presence of Jupiter-sized short-period transiting planets around M dwarfs. Hot Neptunes produce a much weaker signal and suffer a correspondingly smaller recovery fraction. Neptunes can only be reliably recovered with the correct period around the rather small sample (~100) of the latest M dwarfs (M4-M9) in the WTS. The non-detection of a hot-Jupiter around an M dwarf by the WFCAM Transit Survey allows us to place an upper limit of 1.7-2.0 per cent (at 95 per cent confidence) on the planet occurrence rate., Comment: 20 pages, 13 figures; accepted for publication in MNRAS

Published

2013

14. A highly unequal-mass eclipsing M-dwarf binary in the WFCAM Transit Survey

Author

Nefs, S. V., Birkby, J. L., Snellen, I. A. G., Hodgkin, S. T., Sipocz, B. M., Kovacs, G., Mislis, D., Pinfield, D. J., and Martin, E. L.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

In this paper we present the discovery of a highly unequal-mass eclipsing M-dwarf binary, providing a unique constraint on binary star formation theory and on evolutionary models for low-mass binary stars. The binary is discovered using high- precision infrared light curves from the WFCAM Transit Survey (WTS) and has an orbital period of 2.44 d. We find stellar masses of M1 = 0.53 (0.02) Msun and M2 = 0.143 (0.006) Msun (mass ratio 0.27), and radii of R1 = 0.51 (0.01) Rsun and R2 = 0.174 (0.006) Rsun. This puts the companion in a very sparsely sampled and important late M-dwarf mass-regime. Since both stars share the same age and metallicity and straddle the theoretical boundary between fully and partially convective stellar interiors, a comparison can be made to model predictions over a large range of M-dwarf masses using the same model isochrone. Both stars appear to have a slightly inflated radius compared to 1 Gyr model predictions for their masses, but future work is needed to properly account for the effects of star spots on the light curve solution. A significant, subsynchronous, ~2.56 d signal with ~2% peak-to-peak amplitude is detected in the WFCAM light curve, which we attribute to rotational modulation of cool star spots. We propose that the subsynchronous rotation is either due to a stable star-spot complex at high latitude on the (magnetically active) primary (i.e. differential rotation), or to additional magnetic braking, or to interaction of the binary with a third body or circumbinary disk during its pre-main-sequence phase., Comment: Accepted for publication in MNRAS, March 4 22 pages, 10 figures

Published

2013

15. J band Variability of M Dwarfs in the WFCAM Transit Survey

Author

Goulding, N. T., Barnes, J. R., Pinfield, D. J., Kovács, G., Birkby, J., Hodgkin, S., Catalán, S., Sipőcz, B., Jones, H. R. A., del Burgo, C., Jeffers, S. V., Nefs, S., Gálvez-Ortiz, M. -C., and Martin, E. L.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present an analysis of the photometric variability of M dwarfs in the WFCAM Transit Survey. Although periodic lightcurve variability in low mass stars is generally dominated by photospheric star spot activity, M dwarf variability in the J band has not been as thoroughly investigated as at visible wavelengths. Spectral type estimates for a sample of over 200,000 objects are made using spectral type-colour relations, and over 9600 dwarfs (J<17) with spectral types later than K7 were found. The light curves of the late-type sample are searched for periodicity using a Lomb-Scargle periodogram analysis. A total of 68 periodic variable M dwarfs are found in the sample with periods ranging from 0.16 days to 90.33 days, with amplitudes in the range of ~0.009 to ~0.115 in the J band. We simulate active M dwarfs with a range of latitude-independent spot coverages and estimate a periodically variable fractions of 1-3 per cent for stars where spots cover more than 10 per cent of the star's surface. Our simulated spot distributions indicate that operating in the J band, where spot contrast ratios are minimised, enables variability in only the most active of stars to be detected. These findings affirm the benefits of using the $J$ band for planetary transit searches compared to visible bands. We also serendipitously find a \Delta J>0.2 mag flaring event from an M4V star in our sample., Comment: 18 pages, 18 figures, 2 tables, accepted in MNRAS

Published

2012

16. Four ultra-short period eclipsing M-dwarf binaries in the WFCAM Transit Survey

Author

Nefs, S. V., Birkby, J. L., Snellen, I. A. G., Hodgkin, S. T., Pinfield, D. J., Sipocz, B., Kovacs, G., Mislis, D., Saglia, R. P., Koppenhofer, J., Cruz, P., Barrado, D., Martin, E. L., Goulding, N., Stoev, H., Zendejas, J., del Burgo, C., Cappetta, M., and Pavlenko, Y. V.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We report on the discovery of four ultra-short period (P<0.18 days) eclipsing M-dwarf binaries in the WFCAM Transit Survey. Their orbital periods are significantly shorter than of any other known main-sequence binary system, and are all significantly below the sharp period cut-off at P~0.22 days as seen in binaries of earlier type stars. The shortest-period binary consists of two M4 type stars in a P=0.112 day orbit. The binaries are discovered as part of an extensive search for short-period eclipsing systems in over 260,000 stellar lightcurves, including over 10,000 M-dwarfs down to J=18 mag, yielding 25 binaries with P<0.23 days. In a popular paradigm, the evolution of short period binaries of cool main-sequence stars is driven by loss of angular momentum through magnetised winds. In this scheme, the observed P~0.22 day period cut-off is explained as being due to timescales that are too long for lower-mass binaries to decay into tighter orbits. Our discovery of low-mass binaries with significantly shorter orbits implies that either these timescales have been overestimated for M-dwarfs, e.g. due to a higher effective magnetic activity, or that the mechanism for forming these tight M-dwarf binaries is different from that of earlier type main-sequence stars., Comment: 22 pages, 17 figures, 3 tables Accepted for publication in MNRAS

Published

2012

17. The discovery of the T8.5 dwarf UGPS J0521+3640

Author

Burningham, Ben, Lucas, P. W., Leggett, S. K., Smart, R., Baker, D., Pinfield, D. J., Tinney, C. G., Homeier, D., Allard, F., Zhang, Z. H., Gomes, J., Day-Jones, A. C., Jones, H. R. A., Kovacs, G., Lodieu, N., Marocco, F., Murray, D. N., and Sipocz, B.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We have carried out a search for late-type T dwarfs in the UKIDSS Galactic Plane Survey 6th Data Release. The search yielded two persuasive candidates, both of which have been confirmed as T dwarfs. The brightest, UGPS J0521+3640 has been assigned the spectral type T8.5 and appears to lie at a distance of 7-9 pc. The fainter of the two, UGPS J0652+0324, is classified as a T5.5 dwarf, and lies at an estimated distance of 28-37 pc. Warm-Spitzer observations in IRAC channels 1 and 2, taken as part of the GLIMPSE360 Legacy Survey, are available for UGPS J0521+3640 and we used these data with the near-infrared spectroscopy to estimate its properties. We find best fitting solar metallicity BT-Settl models for Teff = 600K and 650K and log g = 4.5 and 5.0. These parameters suggest a mass of between 14 and 32 MJup for an age between 1 and 5 Gyr. The proximity of this very cool T dwarf, and its location in the Galactic plane makes it an ideal candidate for high resolution adaptive optics imaging to search for cool companions., Comment: 5 pages. MNRAS Letters accepted. V2 corrected typo in object name UGPS J0521+3639 => UGPS J0521+3640. V3 corrected error on Figure 2

Published

2011

18. HAT-P-14b: A 2.2 Jupiter-mass exoplanet transiting a bright F star

Author

Torres, G., Bakos, G. A., Hartman, J., Kovacs, Geza, Noyes, R. W., Latham, D. W., Fischer, D. A., Johnson, J. A., Marcy, G. W., Howard, A. W., Sasselov, D. D., Kipping, D., Sipocz, B., Stefanik, R. P., Esquerdo, G. A., Everett, M. E., Lazar, J., Papp, I., and Sari, P.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We report the discovery of HAT-P-14b, a fairly massive transiting extrasolar planet orbiting the moderately bright star GSC 3086-00152 (V = 9.98), with a period of P = 4.627669 +/- 0.000005 days. The transit is close to grazing (impact parameter 0.891 +0.007/-0.008) and has a duration of 0.0912 +/- 0.0017 days, with a reference epoch of mid transit of Tc = 2454875.28938 +/- 0.00047 (BJD). The orbit is slightly eccentric (e = 0.107 +/- 0.013), and the orientation is such that occultations are unlikely to occur. The host star is a slightly evolved mid-F dwarf with a mass of 1.386 +/- 0.045 M(Sun), a radius of 1.468 +/- 0.054 R(Sun) effective temperature 6600 +/- 90 K, and a slightly metal-rich composition corresponding to [Fe/H] = +0.11 +/- 0.08. The planet has a mass of 2.232 +/- 0.059 M(Jup) and a radius of 1.150 +/- 0.052 R(Jup), implying a mean density of 1.82 +/- 0.24 g/cm3. Its radius is well reproduced by theoretical models for the 1.3 Gyr age of the system if the planet has a heavy-element fraction of about 50 M(Earth) (7% of its total mass). The brightness, near-grazing orientation, and other properties of HAT-P-14 make it a favorable transiting system to look for changes in the orbital elements or transit timing variations induced by a possible second planet, and also to place meaningful constraints on the presence of sub-Earth mass or Earth mass exomoons, by monitoring it for transit duration variations., Comment: 10 pages in emulateapj format, including figures and tables. To appear in The Astrophysical Journal, June 2010 issue. Changes include additions to the Results and Discussions sections

Published

2010

19. HAT-P-13b,c: a transiting hot Jupiter with a massive outer companion on an eccentric orbit

Author

Bakos, G. A., Howard, A. W., Noyes, R. W., Hartman, J., Torres, G., Kovacs, Geza, Fischer, D. A., Latham, D. W., Johnson, J. A., Marcy, G. W., Sasselov, D. D., Stefanik, R. P., Sipocz, B., Kovacs, Gabor, Esquerdo, G. A., Pal, A., Lazar, J., and Papp, I.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We report on the discovery of a planetary system with a close-in transiting hot Jupiter on a near circular orbit and a massive outer planet on a highly eccentric orbit. The inner planet, HAT-P-13b, transits the bright V=10.622 G4 dwarf star GSC 3416-00543 every P = 2.916260 \pm 0.000010 days, with transit epoch Tc = 2454779.92979 \pm 0.00038 (BJD) and duration 0.1345 \pm 0.0017 d. The outer planet, HAT-P-13c orbits the star with P2 = 428.5 \pm 3.0 days and nominal transit center (assuming zero impact parameter) of T2c = 2454870.4 \pm 1.8 (BJD) or time of periastron passage T2,peri= 2454890.05 \pm 0.48 (BJD). Transits of the outer planet have not been observed, and may not be present. The host star has a mass of 1.22 \pm ^0.05_0.10 Msun, radius of 1.56 \pm 0.08 Rsun, effective temperature 5653 \pm 90 K, and is rather metal rich with [Fe=H] = +0.41 \pm 0.08. The inner planetary companion has a mass of 0.853\pm ^0.029_-0.046MJup, and radius of 1.281 \pm 0.079 RJup yielding a mean density of 0.498\pm +0.103_-0.069 gcm^-3. The outer companion has m2 sini2 = 15.2 \pm 1.0 MJup, and orbits on a highly eccentric orbit of e2 = 0.691 \pm 0.018. While we have not detected significant transit timing variations of HAT-P-13b, due to gravitational and light-travel time effects, future observations will constrain the orbital inclination of HAT-P-13c, along with its mutual inclination to HAT-P-13b. The HAT-P-13 (b,c) double-planet system may prove extremely valuable for theoretical studies of the formation and dynamics of planetary systems., Comment: Accepted for publication in ApJ. 11 pages, 7 figures

Published

2009

20. HAT-P-11b: A Super-Neptune Planet Transiting a Bright K Star in the Kepler Field

Author

Bakos, G. Á., Torres, G., Pál, A., Hartman, J., Kovács, Géza, Noyes, R. W., Latham, D. W., Sasselov, D. D., Sipőcz, B., Esquerdo, G. A., Fischer, D. A., Johnson, J. A., Marcy, G. W., Butler, R. P., Isaacson, H., Howard, A., Vogt, S., Kovács, Gábor, Fernandez, J., Moór, A., Stefanik, R. P., Lázár, J., Papp, I., and Sári, P.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We report on the discovery of HAT-P-11b, the smallest radius transiting extrasolar planet (TEP) discovered from the ground, and the first hot Neptune discovered to date by transit searches. HAT-P-11b orbits the bright (V=9.587) and metal rich ([Fe=H] = +0.31 +/- 0.05) K4 dwarf star GSC 03561-02092 with P = 4.8878162 +/- 0.0000071 days and produces a transit signal with depth of 4.2 mmag. We present a global analysis of the available photometric and radial-velocity data that result in stellar and planetary parameters, with simultaneous treatment of systematic variations. The planet, like its near-twin GJ 436b, is somewhat larger than Neptune (17Mearth, 3.8Rearth) both in mass Mp = 0.081 +/- 0.009 MJ (25.8 +/- 2.9 Mearth) and radius Rp = 0.422 +/- 0.014 RJ (4.73 +/- 0.16 Rearth). HAT-P-11b orbits in an eccentric orbit with e = 0.198 +/- 0.046 and omega = 355.2 +/- 17.3, causing a reflex motion of its parent star with amplitude 11.6 +/- 1.2 m/s, a challenging detection due to the high level of chromospheric activity of the parent star. Our ephemeris for the transit events is Tc = 2454605.89132 +/- 0.00032 (BJD), with duration 0.0957 +/- 0.0012 d, and secondary eclipse epoch of 2454608.96 +/- 0.15 d (BJD). The basic stellar parameters of the host star are M* = 0.809+0.020-0.027 Msun, R* = 0.752 +/- 0.021 Rsun and Teff = 4780 +/- 50 K. Importantly, HAT-P-11 will lie on one of the detectors of the forthcoming Kepler mission. We discuss an interesting constraint on the eccentricity of the system by the transit light curve and stellar parameters. We also present a blend analysis, that for the first time treats the case of a blended transiting hot Jupiter mimicing a transiting hot Neptune, and proves that HAT-P-11b is not such a blend., Comment: Accepted for publication in ApJ, 24 pages, 14 figures, 6 tables. All RV data presented in this version

Published

2009

21. Independent confirmation and refined parameters of the hot Jupiter XO-5b

Author

Pál, A., Bakos, G. Á., Fernandez, J., Sipőcz, B., Torres, G., Latham, D. W., Kovács, Géza, Noyes, R. W., Marcy, G. W., Fischer, D. A., Butler, R. P., Sasselov, D. D., Esquerdo, G. A., Shporer, A., Mazeh, T., Stefanik, R. P., and Isaacson, H.

Subjects

Astrophysics

Abstract

We present HATNet observations of XO-5b, confirming its planetary nature based on evidence beyond that described in the announcement of Burke et al. (2008), namely, the lack of significant correlation between spectral bisector variations and orbital phase. In addition, using extensive spectroscopic measurements spanning multiple seasons, we investigate the relatively large scatter in the spectral line bisectors. We also examine possible blended stellar configurations (hierarchical triples, chance alignments) that can mimic the planet signals, and we are able to show that none are consistent with the sum of all the data. The analysis of the S activity index shows no significant stellar activity. Our results for the planet parameters are consistent with values in Burke et al. (2008), and we refine both the stellar and planetary parameters using our data. XO-5b orbits a slightly evolved, late G type star with mass M_s = 0.88 +/- 0.03, radius R_s = 1.08 +/- 0.04, and metallicity close to solar. The planetary mass and radius are M_p = 1.059 +/- 0.028 M_Jup and R_p = 1.109 +/- 0.050 R_Jup, respectively, corresponding to a mean density of 0.96 -0.11 +0.14 g/cm^3. The ephemeris for the orbit is P = 4.187757 +/- 0.000011, E= 2454552.67168 +/- 0.00029 (BJD) with transit duration of 0.1307 +/- 0.0013 d. By measuring four individual transit centers, we found no signs for transit timing variations. The planet XO-5b is notable for its anomalously high Safronov number, and has a high surface gravity when compared to other transiting exoplanets with similar period., Comment: Accepted for publication in ApJ, 8 pages in emulateapj style

Published

2008

22. HAT-P-10b: A light and moderately hot Jupiter transiting a K dwarf

Author

Bakos, G. A., Pal, A., Torres, G., Sipocz, B., Latham, D. W., Noyes, R. W., Kovacs, Geza, Hartman, J., Esquerdo, G. A., Fischer, D. A., Johnson, J. A., Marcy, G. W., Butler, R. P., Howard, A., Sasselov, D. D., Kovacs, Gabor, Stefanik, R. P., Lazar, J., Papp, I., and Sari, P.

Subjects

Astrophysics

Abstract

We report on the discovery of HAT-P-10b, the lowest mass (0.46 +/- 0.03 MJ) transiting extrasolar planet (TEP) discovered to date by transit searches. HAT-P-10b orbits the moderately bright V=11.89 K dwarf GSC 02340-01714, with a period P = 3.7224690 +/- 0.0000067 d, transit epoch Tc = 2454729.90631 +/- 0.00030 (BJD) and duration 0.1100 +/- 0.0015 d. HAT-P-10b has a radius of 1.05 +(0.05)-(0.03) RJ yielding a mean density of 0.498+/-0.064 g cm^-3 . Comparing these observations with recent theoretical models we find that HAT-P-10 is consistent with a ~4.5 Gyr, coreless, pure hydrogen and helium gas giant planet. With an equilibrium temperature of Teq = 1030 +(26)-(19)K, HAT-P-10b is one of the coldest TEPs. Curiously, its Safronov number Theta = 0.047 +/- 0.003 falls close to the dividing line between the two suggested TEP populations., Comment: 6 pages, 5 figures, submitted to ApJ. V2: added cross-reference to WASP-11b

Published

2008

23. HAT-P-7b: An Extremely Hot Massive Planet Transiting a Bright Star in the Kepler Field

Author

Pal, A., Bakos, G. A., Torres, G., Noyes, R. W., Latham, D. W., Kovacs, Geza, Marcy, G. W., Fischer, D. A., Butler, R. P., Sasselov, D. D., Sipocz, B., Esquerdo, G. A., Kovacs, Gabor, Stefanik, R., Lazar, J., Papp, I., and Sari, P.

Subjects

Astrophysics

Abstract

We report on the latest discovery of the HATNet project; a very hot giant planet orbiting a bright (V = 10.5) star with a small semi-major axis of a = 0.0377 +/- 0.0005 AU. Ephemeris for the system is P = 2.2047299 +/- 0.0000040 days, mid-transit time E = 2,453,790.2593 +/- 0.0010 (BJD). Based on the available spectroscopic data on the host star and photometry of the system, the planet has a mass of Mp = 1.78+/-^{0.08}_{0.05} MJup and radius of Rp = 1.36+/-^{0.20}_{0.09} RJup. The parent star is a slightly evolved F6 star with M = 1.47+/-^{0.08}_{-0.05} Msun,R = 1.84+/-^{0.23}_{0.11} Rsun, Teff = 6350 +/- 80 K, and metallicity [Fe/H] = +0.26 +/- 0.08. The relatively hot and large host star, combined with the close orbit of the planet, yield a very high planetary irradiance of (4.71+/-^{1.44}_{0.05}) 10^9 erg cm^{-2}s^{-1}, which places the planet near the top of the pM class of irradiated planets as defined by Fortney et al. (2007). If as predicted by Fortney et al. (2007) the planet re-radiates its absorbed energy before distributing it to the night side, the day-side temperature should be about (2730+/-^{150}_{100}) K. Because the host star is quite bright, measurement of the secondary eclipse should be feasible for ground-based telescopes, providing a good opportunity to compare the predictions of current hot Jupiter atmospheric models with the observations. Moreover, the host star falls in the field of the upcoming Kepler mission; hence extensive space-borne follow-up, including not only primary transit and secondary eclipse observations but also asteroseismology, will be possible., Comment: Accepted for publication in ApJ, 8 pages, 2 figures

Published

2008

24. HAT-P-6b: A Hot Jupiter transiting a bright F star

Author

Noyes, R. W., Bakos, G. A., Torres, G., Pal, A., Kovacs, Geza, Latham, D. W., Fernandez, J. M., Fischer, D. A., Butler, R. P., Marcy, G. W., Sipocz, B., Esquerdo, G. A., Kovacs, Gabor, Sasselov, D. D., Sato, B., Stefanik, R., Holman, M., Lazar, J., Papp, I., and Sari, P.

Subjects

Astrophysics

Abstract

In the ongoing HATNet survey we have detected a giant planet, with radius 1.33 +/- 0.06 RJup and mass 1.06 +/- 0.12 MJup, transiting the bright (V = 10.5) star GSC 03239-00992. The planet is in a circular orbit with period 3.852985 +/- 0.000005 days and mid-transit epoch 2,454,035.67575 +/- 0.00028 (HJD). The parent star is a late F star with mass 1.29 +/- 0.06 Msun, radius 1.46 +/- 0.06 Rsun, Teff ~ 6570 +/- 80 K, [Fe=H] = -0.13 +/- 0.08 and age ~ 2.3+/-^{0.5}_{0.7}Gy. With this radius and mass, HAT-P-6b has somewhat larger radius than theoretically expected. We describe the observations and their analysis to determine physical properties of the HAT-P-6 system, and briefly discuss some implications of this finding., Comment: Accepted for publication in ApJL, 5 pages, minor changes compared to V1

Published

2007

25. HAT-P-5b: A Jupiter-like hot Jupiter Transiting a Bright Star

Author

Bakos, G. A., Shporer, A., Pal, A., Torres, G., Kovacs, Geza, Latham, D. W., Mazeh, T., Ofir, A., Noyes, R. W., Sasselov, D. D., Bouchy, F., Pont, F., Queloz, D., Udry, S., Esquerdo, G., Sipocz, B., Kovacs, Gabor, Lazar, J., Papp, I., and Sari, P.

Subjects

Astrophysics

Abstract

We report the discovery of a planet transiting a moderately bright (V = 12.00) G star, with an orbital period of 2.788491 +/-0.000025 days. From the transit light curve we determine that the radius of the planet is Rp = 1.257 +/- 0.053 RJup. HAT-P-5b has a mass of Mp = 1.06 +/- 0.11 MJup, similar to the average mass of previously-known transiting exoplanets, and a density of rho = 0.66 +/- 0.11 g cm^-3 . We find that the center of transit is Tc = 2,454,241.77663 +/- 0.00022 (HJD), and the total transit duration is 0.1217 +/- 0.0012 days., Comment: 5 pages, submitted to APJL

Published

2007

26. HD147506b: A Super-Massive Planet in an Eccentric Orbit Transiting a Bright Star

Author

Bakos, G. A., Kovacs, G., Torres, G., Fischer, D. A., Latham, D. W., Noyes, R. W., Sasselov, D. D., Mazeh, T., Shporer, A., Butler, R. P., Stefanik, R. P., Fernandez, J. M., Sozzetti, A., Pal, A., Johnson, J., Marcy, G. W., Winn, J., Sipocz, B., Lazar, J., Papp, I., and Sari, P.

Subjects

Astrophysics

Abstract

We report the discovery of a massive (Mp = 9.04+/-0.50 MJup) planet transiting the bright (V = 8.7) F8 star HD 147506, with an orbital period of 5.63341+/-0.00013 days and an eccentricity of e = 0.520+/-0.010. From the transit light curve we determine that the radius of the planet is Rp = 0.982^{+0.038}_{0.105}RJup. HD 147506b (also coined HAT-P-2b) has a mass about 9 times the average mass of previously-known transiting exoplanets, and a density of rho = 11.9 g cm-3, greater than that of rocky planets like the Earth. Its mass and radius are marginally consistent with theories of structure of massive giant planets composed of pure H and He, and may require a large (~100 Earth mass) core to account for. The high eccentricity causes a 9-fold variation of insolation of the planet between peri- and apastron. Using follow-up photometry, we find that the center of transit is Tmid = 2,454,212.8559 +/- 0.0007 (HJD), and the transit duration is 0.177 +/-0.002 d., Comment: Revised version sent to ApJ

Published

2007

27. HAT-P-1b: A Large-Radius, Low-Density Exoplanet Transiting one Member of a Stellar Binary

Author

Bakos, G. A., Noyes, R. W., Kovacs, G., Latham, D. W., Sasselov, D. D., Torres, G., Fischer, D. A., Stefanik, R. P., Sato, B., Johnson, J. A., Pal, A., Marcy, G. W., Butler, R. P., Esquerdo, G. A., Stanek, K. Z., Lazar, J., Papp, I., Sari, P., and Sipocz, B.

Subjects

Astrophysics

Abstract

Using small automated telescopes in Arizona and Hawaii, the HATNet project has detected an object transiting one member of the double star system ADS 16402 AB. This system is a pair of G0 main-sequence stars with age about 3 Gyr at a distance of ~139 pc and projected separation of ~1550 AU. The transit signal has a period of 4.46529 days and depth of 0.015 mag. From follow-up photometry and spectroscopy, we find that the object is a "hot Jupiter" planet with mass about 0.53 M_jup and radius ~1.36 R_jup traveling in an orbit with semimajor axis 0.055 AU and inclination about 85.9 deg, thus transiting the star at impact parameter 0.74 of the stellar radius. Based on a data set spanning three years, ephemerides for the transit center are: T_C = 2453984.397 + N_tr * 4.46529. The planet, designated HAT-P-1b, appears to be at least as large in radius, and smaller in mean density, than any previously-known planet., Comment: 8 pages, accepted for publication in ApJ, see also http://www.hatnet.hu (www.hatnet.hu)

Published

2006

28. The Type la Supernova 2001V in NGC 3987

Author

Vinko, J., Biro, I. B., Csak, B., Csizmadia, Sz., Derekas, A., Furesz, G., Heiner, Z., Sarneczky, K., Sipocz, B., Szabo, G. M., Szabo, R., Sziladi, K., and Szatmary, K.

Subjects

Astrophysics

Abstract

CCD photometry of the type Ia SN 2001V occured in the edge-on spiral galaxy NGC 3987 is presented. The observations made through Johnson-Cousins BVRI filters were collected from Feb. 24 (t = -8 days, with respect to B-maximum), up to May 5 (t = +62 days). The light curves are analyzed with the revised Multi-Colour Light Curve Shape (MLCS) method by fitting template vectors to the observed light curves simultaneously. The reddening of SN 2001V is estimated to be E(B-V)=0.05 mag, while the galactic component is E(B-V) = 0.02 mag, suggesting that part of the reddening may be due to the ISM in the host galaxy. The Delta parameter in MLCS converged to -0.47 mag, indicating that this SN was overluminous relative to the majority of Type Ia SNe. The inferred distance to its host galaxy, NGC 3987, is 74.5 \pm 5 Mpc, which is in good agreement with recently determined kinematic distances, based on radial velocity corrected for Virgo-infall and Hubble constant H_0 = 65 km/s/Mpc., Comment: 6 pages, 4 figures, accepted in Astronomy and Astrophysics

Published

2002

29. Discovery and characterization of detached M dwarf eclipsing binaries in the WFCAM transit survey

Author

Birkby, J, Nefs, B, Hodgkin, S, Kovács, G, Sipőcz, B, Pinfield, D, Snellen, I, Mislis, D, Murgas, F, Lodieu, N, de Mooij, E, Goulding, N, Cruz, P, Stoev, H, Cappetta, M, Palle, E, Barrado, D, Saglia, R, Martin, E, and Pavlenko, Y

Abstract

We report the discovery of 16 detached M dwarf eclipsing binaries with J < 16 mag and provide a detailed characterization of three of them, using high-precision infrared light curves from the WFCAM Transit Survey (WTS). Such systems provide the most accurate and model-independent method for measuring the fundamental parameters of these poorly understood yet numerous stars, which currently lack sufficient observations to precisely calibrate stellar evolution models. We fully solve for the masses and radii of three of the systems, finding orbital periods in the range 1.5 < P < 4.9 d, with masses spanning 0.35–0.50 M⊙ and radii between 0.38 and 0.50 R⊙, with uncertainties of ∼3.5–6.4 per cent in mass and ∼2.7–5.5 per cent in radius. Close companions in short-period binaries are expected to be tidally locked into fast rotational velocities, resulting in high levels of magnetic activity. This is predicted to inflate their radii by inhibiting convective flow and increasing starspot coverage. The radii of the WTS systems are inflated above model predictions by ∼3–12 per cent, in agreement with the observed trend, despite an expected lower systematic contribution from starspot signals at infrared wavelengths. We searched for correlation between the orbital period and radius inflation by combining our results with all existing M dwarf radius measurements of comparable precision, but we found no statistically significant evidence for a decrease in radius inflation for longer period, less active systems. Radius inflation continues to exists in non-synchronized systems, indicating that the problem remains even for very low activity M dwarfs. Resolving this issue is vital not only for understanding the most populous stars in the Universe, but also for characterizing their planetary companions, which hold the best prospects for finding Earth-like planets in the traditional habitable zone.

Published

2021

30. Gaia Early Data Release 3

Author

Hodgkin, S. T., primary, Harrison, D. L., additional, Breedt, E., additional, Wevers, T., additional, Rixon, G., additional, Delgado, A., additional, Yoldas, A., additional, Kostrzewa-Rutkowska, Z., additional, Wyrzykowski, Ł., additional, van Leeuwen, M., additional, Blagorodnova, N., additional, Campbell, H., additional, Eappachen, D., additional, Fraser, M., additional, Ihanec, N., additional, Koposov, S. E., additional, Kruszyńska, K., additional, Marton, G., additional, Rybicki, K. A., additional, Brown, A. G. A., additional, Burgess, P. W., additional, Busso, G., additional, Cowell, S., additional, De Angeli, F., additional, Diener, C., additional, Evans, D. W., additional, Gilmore, G., additional, Holland, G., additional, Jonker, P. G., additional, van Leeuwen, F., additional, Mignard, F., additional, Osborne, P. J., additional, Portell, J., additional, Prusti, T., additional, Richards, P. J., additional, Riello, M., additional, Seabroke, G. M., additional, Walton, N. A., additional, Ábrahám, P., additional, Altavilla, G., additional, Baker, S. G., additional, Bastian, U., additional, O’Brien, P., additional, de Bruijne, J., additional, Butterley, T., additional, Carrasco, J. M., additional, Castañeda, J., additional, Clark, J. S., additional, Clementini, G., additional, Copperwheat, C. M., additional, Cropper, M., additional, Damljanovic, G., additional, Davidson, M., additional, Davis, C. J., additional, Dennefeld, M., additional, Dhillon, V. S., additional, Dolding, C., additional, Dominik, M., additional, Esquej, P., additional, Eyer, L., additional, Fabricius, C., additional, Fridman, M., additional, Froebrich, D., additional, Garralda, N., additional, Gomboc, A., additional, González-Vidal, J. J., additional, Guerra, R., additional, Hambly, N. C., additional, Hardy, L. K., additional, Holl, B., additional, Hourihane, A., additional, Japelj, J., additional, Kann, D. A., additional, Kiss, C., additional, Knigge, C., additional, Kolb, U., additional, Komossa, S., additional, Kóspál, Á., additional, Kovács, G., additional, Kun, M., additional, Leto, G., additional, Lewis, F., additional, Littlefair, S. P., additional, Mahabal, A. A., additional, Mundell, C. G., additional, Nagy, Z., additional, Padeletti, D., additional, Palaversa, L., additional, Pigulski, A., additional, Pretorius, M. L., additional, van Reeven, W., additional, Ribeiro, V. A. R. M., additional, Roelens, M., additional, Rowell, N., additional, Schartel, N., additional, Scholz, A., additional, Schwope, A., additional, Sipőcz, B. M., additional, Smartt, S. J., additional, Smith, M. D., additional, Serraller, I., additional, Steeghs, D., additional, Sullivan, M., additional, Szabados, L., additional, Szegedi-Elek, E., additional, Tisserand, P., additional, Tomasella, L., additional, van Velzen, S., additional, Whitelock, P. A., additional, Wilson, R. W., additional, and Young, D. R., additional

Published

2021

31. Erratum: The first planet detected in the WTS: an inflated hot-Jupiter in a 3.35 day orbit around a late F-star

Author

Cappetta, M., Saglia, R.P., Birkby, J.L., Koppenhoefer, J., Pinfield, D.J., Hodgkin, S.T., Cruz, P., Kovács, G., Sipőcz, B., Barrado, D., Nefs, B., Pavlenko, Y.V., Fossati, L., Burgo, C., Martín, E.L., Snellen, I.A.G., Barnes, J., Campbell, D., Catalan, S., Gálvez-Ortiz, M.C., Goulding, N., Haswell, C., Ivanyuk, O., Jones, H., Kuznetsov, M., Lodieu, N., Marocco, F., Mislis, D., Murgas, F., Napiwotzki, R., Palle, E., Pollacco, D., Sarro Baro, L., Solano, E., Steele, P., Stoev, H., Tata, R., Zendejas, J., and Pallé, E. [0000-0003-0987-1593]

Subjects

Gaseous planets, Addenda, Errata, Space and Planetary Science, Astronomy and Astrophysics, Planets and Satellites

Abstract

The paper ‘The first planet detected in the WTS: an inflated hot-Jupiter in a 3.35 day orbit around a late F-star’ was published in Mon. Not. R. Astron. Soc. 427, 1877−1890 (2012). Tables 1 and 4 were supposed to be available through its electronic version, but in fact were never linked to the paper. They are made available here. Debido a su tipología(Corrección), carece de Abstract. Due to its typology, it has no Abstract. This is a correction to: Monthly Notices of the Royal Astronomical Society, Volume 427, Issue 3, December 2012, Pages 1877–1890, https://doi.org/10.1111/j.1365-2966.2012.21937.x Peer review

Published

2020

32. Erratum: The first planet detected in the WTS: an inflated hot-Jupiter in a 3.35 day orbit around a late F-star

Author

Cappetta, M, primary, Saglia, R P, additional, Birkby, J L, additional, Koppenhoefer, J, additional, Pinfield, D J, additional, Hodgkin, S T, additional, Cruz, P, additional, Kovács, G, additional, Sipőcz, B, additional, Barrado, D, additional, Nefs, B, additional, Pavlenko, Y V, additional, Fossati, L, additional, del Burgo, C, additional, Martín, E L, additional, Snellen, I, additional, Barnes, J, additional, Campbell, D, additional, Catalan, S, additional, Gálvez-Ortiz, M C, additional, Goulding, N, additional, Haswell, C, additional, Ivanyuk, O, additional, Jones, H, additional, Kuznetsov, M, additional, Lodieu, N, additional, Marocco, F, additional, Mislis, D, additional, Murgas, F, additional, Napiwotzki, R, additional, Palle, E, additional, Pollacco, D, additional, Sarro Baro, L, additional, Solano, E, additional, Steele, P, additional, Stoev, H, additional, Tata, R, additional, and Zendejas, J, additional

Published

2020

33. The Astropy Project: Building an Open-science Project and Status of the v2.0 Core Package

Author

Google, NumFOCUS, Space Telescope Science Institute (US), Harvard-Smithsonian Center for Astrophysics, South African Astronomical Observatory, National Aeronautics and Space Administration (US), Gordon and Betty Moore Foundation, Alfred P. Sloan Foundation, Washington Research Foundation, German Research Foundation, Gemini Observatory, Korea Astronomy and Space Science Institute, Ministerio de Economía y Competitividad (España), European Commission, Price-Whelan, Adrian M., Sipőcz, B. M., Günther, H.M., Lim, P. L., Crawford, S. M., Conseil, S., Shupe, D. L., Craig, M. W., Dencheva, N., Ginsburg, Adam, VanderPlas, J. T., Burke, D. J., Calderone, G., Cano Rodríguez, J. L., Cara, M., Cardoso, J. V. M., Cheedella, S., Copin, Y., Corrales, L., Groener, A. M., Crichton, D., Jenness, T., D'Avella, D., Deil, C., Depagne, É., Dietrich, J. P., Donath, A., Droettboom, M., Earl, N., Erben, T., Fabbro, S., Grollier, F., Kanarek, G., Ferreira, L. A., Finethy, T., Fox, R. T., Garrison, L. H., Gibbons, S. L. J., Goldstein, D. A., Gommers, R., Greco, J. P., Hagen, A., Hirst, P., Kendrew, S., Homeier, D., Horton, A. J., Hosseinzadeh, Griffin, Hu, L., Hunkeler, J. S., Nöthe, M., Ivezić, Ž., Jain, A., Kern, N. S., Kerzendorf, W.E., Khvalko, A., King, J., Kirkby, D., Ogaz, S., Kulkarni, A. M., Sabater, J., Kumar, A., Lee, A., Lenz, D., Littlefair, S. P., Ma, Z., Macleod, D. M., Mastropietro, M., McCully, C., Montagnac, S., Oh, S., Sakurikar, P., Morris, B. M., Mueller, M., Mumford, S. J., Muna, D., Murphy, N. A., Nelson, S., Nguyen, G. H., Ninan, J. P., Parejko, J. K., Parley, N., Seifert, M., Pascual, S., Patil, R., Patil, A. A., Plunkett, A. L., Prochaska, J. Xavier, Bradley, L.D., Rastogi, T., Reddy Janga, V., Sherbert, L. E., Sherwood-Taylor, H., Shih, A. Y., Sick, J., Silbiger, M. T., Pérez-Suárez, D., Singanamalla, S., Barentsen, G., Singer, L. P., Sladen, P. H., Sooley, K. A., Sornarajah, S., Streicher, O., Teuben, P., Thomas, S. W., Tremblay, G. R., Turner, J. E. H., de Val-Borro, M., Barmby, P., Terrón, V., van Kerkwijk, M. H., de la Vega, A., Watkins, L. L., Weaver, B. A., Whitmore, J. B., Woillez, J., Zabalza, V., Aldcroft, T. L., Cruz, Kelle, Baumbach, A., Robitaille, T. P., Tollerud, E. J., Ardelean, C., Babej, T., Bach, Y. P., Bachetti, M., Bakanov, A. V., Bamford, S. P., Berry, K. L., Biscani, F., Boquien, Médéric, Bostroem, K. Azalee, Bouma, L.G., Brammer, G. B., Bray, E. M., Greenfield, P., Breytenbach, H., Buddelmeijer, H., Google, NumFOCUS, Space Telescope Science Institute (US), Harvard-Smithsonian Center for Astrophysics, South African Astronomical Observatory, National Aeronautics and Space Administration (US), Gordon and Betty Moore Foundation, Alfred P. Sloan Foundation, Washington Research Foundation, German Research Foundation, Gemini Observatory, Korea Astronomy and Space Science Institute, Ministerio de Economía y Competitividad (España), European Commission, Price-Whelan, Adrian M., Sipőcz, B. M., Günther, H.M., Lim, P. L., Crawford, S. M., Conseil, S., Shupe, D. L., Craig, M. W., Dencheva, N., Ginsburg, Adam, VanderPlas, J. T., Burke, D. J., Calderone, G., Cano Rodríguez, J. L., Cara, M., Cardoso, J. V. M., Cheedella, S., Copin, Y., Corrales, L., Groener, A. M., Crichton, D., Jenness, T., D'Avella, D., Deil, C., Depagne, É., Dietrich, J. P., Donath, A., Droettboom, M., Earl, N., Erben, T., Fabbro, S., Grollier, F., Kanarek, G., Ferreira, L. A., Finethy, T., Fox, R. T., Garrison, L. H., Gibbons, S. L. J., Goldstein, D. A., Gommers, R., Greco, J. P., Hagen, A., Hirst, P., Kendrew, S., Homeier, D., Horton, A. J., Hosseinzadeh, Griffin, Hu, L., Hunkeler, J. S., Nöthe, M., Ivezić, Ž., Jain, A., Kern, N. S., Kerzendorf, W.E., Khvalko, A., King, J., Kirkby, D., Ogaz, S., Kulkarni, A. M., Sabater, J., Kumar, A., Lee, A., Lenz, D., Littlefair, S. P., Ma, Z., Macleod, D. M., Mastropietro, M., McCully, C., Montagnac, S., Oh, S., Sakurikar, P., Morris, B. M., Mueller, M., Mumford, S. J., Muna, D., Murphy, N. A., Nelson, S., Nguyen, G. H., Ninan, J. P., Parejko, J. K., Parley, N., Seifert, M., Pascual, S., Patil, R., Patil, A. A., Plunkett, A. L., Prochaska, J. Xavier, Bradley, L.D., Rastogi, T., Reddy Janga, V., Sherbert, L. E., Sherwood-Taylor, H., Shih, A. Y., Sick, J., Silbiger, M. T., Pérez-Suárez, D., Singanamalla, S., Barentsen, G., Singer, L. P., Sladen, P. H., Sooley, K. A., Sornarajah, S., Streicher, O., Teuben, P., Thomas, S. W., Tremblay, G. R., Turner, J. E. H., de Val-Borro, M., Barmby, P., Terrón, V., van Kerkwijk, M. H., de la Vega, A., Watkins, L. L., Weaver, B. A., Whitmore, J. B., Woillez, J., Zabalza, V., Aldcroft, T. L., Cruz, Kelle, Baumbach, A., Robitaille, T. P., Tollerud, E. J., Ardelean, C., Babej, T., Bach, Y. P., Bachetti, M., Bakanov, A. V., Bamford, S. P., Berry, K. L., Biscani, F., Boquien, Médéric, Bostroem, K. Azalee, Bouma, L.G., Brammer, G. B., Bray, E. M., Greenfield, P., Breytenbach, H., and Buddelmeijer, H.

Abstract

The Astropy Project supports and fosters the development of open-source and openly developed Python packages that provide commonly needed functionality to the astronomical community. A key element of the Astropy Project is the core package astropy, which serves as the foundation for more specialized projects and packages. In this article, we provide an overview of the organization of the Astropy project and summarize key features in the core package, as of the recent major release, version 2.0. We then describe the project infrastructure designed to facilitate and support development for a broader ecosystem of interoperable packages. We conclude with a future outlook of planned new features and directions for the broader Astropy Project.© 2018. The American Astronomical Society.

Published

2018

34. The first planet detected in the WTS: an inflated hot Jupiter in a 3.35 d orbit around a late F star

Author

Cappetta, M., Saglia, R. P., Birkby, J. L., Koppenhoefer, J., Pinfield, D. J., Hodgkin, S. T., Cruz, P., Kovács, G., Sipőcz, B., Barrado, D, Nefs, B, Pavlenko, Y. V., Fossati, L., del Burgo, C., Martin, E. L., Snellen, I., Barnes, J., Bayo, A., Campbell, D. A., Catalan, S., Galvez-Ortiz, M. C., Goulding, N., Haswell, C., Ivanyuk, O., Jones, H. R., Kuznetsov, M., Lodieu, N., Marocco, F., Mislis, D., Murgas, F., Napiwotzki, R., Palle, E., Pollacco, D., Sarro Baro, L., Solano, E., Steele, P., Stoev, H., Tata, R., and Zendejas, J.

Subjects

Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

We report the discovery of WTS-1b, the first extrasolar planet found by the WFCAM Transit Survey, which began observations at the 3.8-m United Kingdom Infrared Telescope (UKIRT) in 2007 August. Light curves comprising almost 1200 epochs with a photometric precision of better than 1 per cent to J ˜ 16 were constructed for ˜60 000 stars and searched for periodic transit signals. For one of the most promising transiting candidates, high-resolution spectra taken at the Hobby-Eberly Telescope (HET) allowed us to estimate the spectroscopic parameters of the host star, a late-F main-sequence dwarf (V = 16.13) with possibly slightly subsolar metallicity, and to measure its radial velocity variations. The combined analysis of the light curves and spectroscopic data resulted in an orbital period of the substellar companion of 3.35 d, a planetary mass of 4.01 ± 0.35 MJ and a planetary radius of 1.49-0.18+0.16 RJ. WTS-1b has one of the largest radius anomalies among the known hot Jupiters in the mass range 3-5 MJ. The high irradiation from the host star ranks the planet in the pM class.

Published

2012

35. Physical properties of the extreme Centaur and super-comet candidate 2013 AZ60

Author

Pál, A., primary, Kiss, Cs., additional, Horner, J., additional, Szakáts, R., additional, Vilenius, E., additional, Müller, Th. G., additional, Acosta-Pulido, J., additional, Licandro, J., additional, Cabrera-Lavers, A., additional, Sárneczky, K., additional, Szabó, Gy. M., additional, Thirouin, A., additional, Sipőcz, B., additional, Dózsa, Á., additional, and Duffard, R., additional

Published

2015

36. Erratum: The first planet detected in the WTS: an inflated hot-Jupiter in a 3.35 d orbit around a late F star

Author

Cappetta, M., primary, Saglia, R. P., additional, Birkby, J. L., additional, Koppenhoefer, J., additional, Pinfield, D. J., additional, Hodgkin, S. T., additional, Cruz, P., additional, Kovács, G., additional, Sipőcz, B., additional, Barrado, D., additional, Nefs, B., additional, Pavlenko, Y. V., additional, Fossati, L., additional, del Burgo, C., additional, Martín, E. L., additional, Snellen, I., additional, Barnes, J., additional, Campbell, D., additional, Catalan, S., additional, Gálvez-Ortiz, M. C., additional, Goulding, N., additional, Haswell, C., additional, Ivanyuk, O., additional, Jones, H., additional, Kuznetsov, M., additional, Lodieu, N., additional, Marocco, F., additional, Mislis, D., additional, Murgas, F., additional, Napiwotzki, R., additional, Palle, E., additional, Pollacco, D., additional, Sarro Baro, L., additional, Solano, E., additional, Steele, P., additional, Stoev, H., additional, Tata, R., additional, and Zendejas, J., additional

Published

2014

37. WTS-2 b: a hot Jupiter orbiting near its tidal destruction radius around a K dwarf

Author

Birkby, J. L., primary, Cappetta, M., additional, Cruz, P., additional, Koppenhoefer, J., additional, Ivanyuk, O., additional, Mustill, A. J., additional, Hodgkin, S. T., additional, Pinfield, D. J., additional, Sipőcz, B., additional, Kovács, G., additional, Saglia, R., additional, Pavlenko, Y., additional, Barrado, D., additional, Bayo, A., additional, Campbell, D., additional, Catalan, S., additional, Fossati, L., additional, Gálvez-Ortiz, M.-C., additional, Kenworthy, M., additional, Lillo-Box, J., additional, Martín, E. L., additional, Mislis, D., additional, de Mooij, E. J. W., additional, Nefs, S. V., additional, Snellen, I. A. G., additional, Stoev, H., additional, Zendejas, J., additional, Burgo, C. del, additional, Barnes, J., additional, Goulding, N., additional, Haswell, C. A., additional, Kuznetsov, M., additional, Lodieu, N., additional, Murgas, F., additional, Palle, E., additional, Solano, E., additional, Steele, P., additional, and Tata, R., additional

Published

2014

38. Searching for transits in the Wide Field Camera Transit Survey with difference-imaging light curves

Author

Zendejas Dominguez, J., primary, Koppenhoefer, J., additional, Saglia, R. P., additional, Birkby, J. L., additional, Hodgkin, S. T., additional, Kovács, G., additional, Pinfield, D. J., additional, Sipőcz, B., additional, Barrado, D., additional, Bender, R., additional, del Burgo, C., additional, Cappetta, M., additional, Martín, E. L., additional, Nefs, S. V., additional, Riffeser, A., additional, and Steele, P., additional

Published

2013

39. A spectroscopic and proper motion search of Sloan Digital Sky Survey: red subdwarfs in binary systems

Author

Zhang, Z. H., primary, Pinfield, D. J., additional, Burningham, B., additional, Jones, H. R. A., additional, Gálvez-Ortiz, M. C., additional, Catalán, S., additional, Smart, R. L., additional, Lépine, S., additional, Clarke, J. R. A., additional, Pavlenko, Ya. V., additional, Murray, D. N., additional, Kuznetsov, M. K., additional, Day-Jones, A. C., additional, Gomes, J., additional, Marocco, F., additional, and Sipőcz, B., additional

Published

2013

40. Periodic variability of spotted M dwarfs in WTS

Author

Goulding, N.T., primary, Barnes, J.R., additional, Pinfield, D.J., additional, del Burgo, C., additional, Kovács, G., additional, Birkby, J., additional, Hodgkin, S., additional, Catalán, S., additional, Sipőcz, B., additional, Jones, H.R.A., additional, Jeffers, S.V., additional, and Nefs, S., additional

Published

2013

41. Hot Jupiters around M dwarfs

Author

Kovács, Gábor, primary, Hodgkin, S., additional, Sipőcz, B., additional, Pinfield, D., additional, Barrado, D., additional, Birkby, J., additional, Cappetta, M., additional, Cruz, P., additional, Koppenhoefer, J., additional, Martín, E., additional, Murgas, F., additional, Nefs, B., additional, Saglia, R., additional, and Zendejas, J., additional

Published

2013

42. The first planet detected in the WTS: an inflated hot Jupiter in a 3.35 d orbit around a late F star

Author

Cappetta, M., primary, Saglia, R. P., additional, Birkby, J. L., additional, Koppenhoefer, J., additional, Pinfield, D. J., additional, Hodgkin, S. T., additional, Cruz, P., additional, Kovács, G., additional, Sipőcz, B., additional, Barrado, D., additional, Nefs, B., additional, Pavlenko, Y. V., additional, Fossati, L., additional, del Burgo, C., additional, Martín, E. L., additional, Snellen, I., additional, Barnes, J., additional, Bayo, A., additional, Campbell, D. A., additional, Catalan, S., additional, Gálvez-Ortiz, M. C., additional, Goulding, N., additional, Haswell, C., additional, Ivanyuk, O., additional, Jones, H. R., additional, Kuznetsov, M., additional, Lodieu, N., additional, Marocco, F., additional, Mislis, D., additional, Murgas, F., additional, Napiwotzki, R., additional, Palle, E., additional, Pollacco, D., additional, Sarro Baro, L., additional, Solano, E., additional, Steele, P., additional, Stoev, H., additional, Tata, R., additional, and Zendejas, J., additional

Published

2012

43. Four ultra-short-period eclipsing M-dwarf binaries in the WFCAM Transit Survey

Author

Nefs, S. V., primary, Birkby, J. L., additional, Snellen, I. A. G., additional, Hodgkin, S. T., additional, Pinfield, D. J., additional, Sipőcz, B., additional, Kovacs, G., additional, Mislis, D., additional, Saglia, R. P., additional, Koppenhoefer, J., additional, Cruz, P., additional, Barrado, D., additional, Martin, E. L., additional, Goulding, N., additional, Stoev, H., additional, Zendejas, J., additional, del Burgo, C., additional, Cappetta, M., additional, and Pavlenko, Y. V., additional

Published

2012

44. The discovery of the T8.5 dwarf UGPS J0521+3640

Author

Burningham, Ben, primary, Lucas, P. W., additional, Leggett, S. K., additional, Smart, R., additional, Baker, D., additional, Pinfield, D. J., additional, Tinney, C. G., additional, Homeier, D., additional, Allard, F., additional, Zhang, Z. H., additional, Gomes, J., additional, Day-Jones, A. C., additional, Jones, H. R. A., additional, Kovács, G., additional, Lodieu, N., additional, Marocco, F., additional, Murray, D. N., additional, and Sipőcz, B., additional

Published

2011

45. A PHOTOMETRIC VARIABILITY SURVEY OF FIELD K AND M DWARF STARS WITH HATNet

Author

Hartman, J. D., primary, Bakos, G. Á., additional, Noyes, R. W., additional, Sipőcz, B., additional, Kovács, G., additional, Mazeh, T., additional, Shporer, A., additional, and Pál, A., additional

Published

2011

46. HAT-P-14b: A 2.2MJEXOPLANET TRANSITING A BRIGHT F STAR

Author

Torres, G., primary, Bakos, G. Á., additional, Hartman, J., additional, Kovács, Géza, additional, Noyes, R. W., additional, Latham, D. W., additional, Fischer, D. A., additional, Johnson, J. A., additional, Marcy, G. W., additional, Howard, A. W., additional, Sasselov, D. D., additional, Kipping, D., additional, Sipőcz, B., additional, Stefanik, R. P., additional, Esquerdo, G. A., additional, Everett, M. E., additional, Lázár, J., additional, Papp, I., additional, and Sári, P., additional

Published

2010

47. HAT-P-11b: A SUPER-NEPTUNE PLANET TRANSITING A BRIGHT K STAR IN THEKEPLERFIELD

Author

Bakos, G. Á., primary, Torres, G., additional, Pál, A., additional, Hartman, J., additional, Kovács, Géza, additional, Noyes, R. W., additional, Latham, D. W., additional, Sasselov, D. D., additional, Sipőcz, B., additional, Esquerdo, G. A., additional, Fischer, D. A., additional, Johnson, J. A., additional, Marcy, G. W., additional, Butler, R. P., additional, Isaacson, H., additional, Howard, A., additional, Vogt, S., additional, Kovács, Gábor, additional, Fernandez, J., additional, Moór, A., additional, Stefanik, R. P., additional, Lázár, J., additional, Papp, I., additional, and Sári, P., additional

Published

2010

48. HAT-P-13b,c: A TRANSITING HOT JUPITER WITH A MASSIVE OUTER COMPANION ON AN ECCENTRIC ORBIT

Author

Bakos, G. Á., primary, Howard, A. W., additional, Noyes, R. W., additional, Hartman, J., additional, Torres, G., additional, Kovács, Géza, additional, Fischer, D. A., additional, Latham, D. W., additional, Johnson, J. A., additional, Marcy, G. W., additional, Sasselov, D. D., additional, Stefanik, R. P., additional, Sipőcz, B., additional, Kovács, Gábor, additional, Esquerdo, G. A., additional, Pál, A., additional, Lázár, J., additional, Papp, I., additional, and Sári, P., additional

Published

2009

49. HAT-P-12b: A LOW-DENSITY SUB-SATURN MASS PLANET TRANSITING A METAL-POOR K DWARF

Author

Hartman, J. D., primary, Bakos, G. Á., additional, Torres, G., additional, Kovács, Géza, additional, Noyes, R. W., additional, Pál, A., additional, Latham, D. W., additional, Sipőcz, B., additional, Fischer, D. A., additional, Johnson, J. A., additional, Marcy, G. W., additional, Butler, R. P., additional, Howard, A. W., additional, Esquerdo, G. A., additional, Sasselov, D. D., additional, Kovács, Gábor, additional, Stefanik, R. P., additional, Fernandez, J. M., additional, Lázár, J., additional, Papp, I., additional, and Sári, P., additional

Published

2009

50. INDEPENDENT CONFIRMATION AND REFINED PARAMETERS OF THE HOT JUPITER XO-5b

Author

Pál, A., primary, Bakos, G. Á., additional, Fernandez, J., additional, Sipőcz, B., additional, Torres, G., additional, Latham, D. W., additional, Kovács, Géza, additional, Noyes, R. W., additional, Marcy, G. W., additional, Fischer, D. A., additional, Butler, R. P., additional, Sasselov, D. D., additional, Esquerdo, G. A., additional, Shporer, A., additional, Mazeh, T., additional, Stefanik, R. P., additional, and Isaacson, H., additional

Published

2009