* Astronomy

Title: Five Intermediate-Period Planets from the N2K Sample
Authors: Debra A. Fischer, Geoffrey W. Marcy, R. Paul Butler, Bun'ei Sato, Steven S. Vogt, Sarah Robinson, Gregory Laughlin, Gregory W. Henry, Shigeru Ida, Eri Toyota, Masashi Omiya, Peter Driscoll, Genya Takeda, Jason T. Wright, John A. Johnson

We report the detection of five jovian mass planets orbiting high metallicity stars. Four of these stars were first observed as part of the N2K program and exhibited low RMS velocity scatter after three consecutive observations. However, follow-up observations over the last three years now reveal the presence of longer period planets with orbital periods ranging from 21 days to a few years. HD 11506 is a G0V star with a planet of \msini = 4.85 \mjup in a 3.5 year orbit. HD 17156 is a G0V star with a 3.08 \mjup planet in an eccentric (e = 0.67) 21.2 day orbit. HD 125612 is a G3V star with a planet of \msini = 3.2 \mjup in a 1.37 year orbit. HD 170469 is a G5IV star with a planet of \msini = 0.68 \mjup in a 3 year orbit. HD 231701 is an F8V star with planet of 1.03 \mjup in a 143 day orbit. All of the stars have supersolar metallicity. Three of the five stars were observed photometrically but showed no evidence of brightness variability. A transit search conducted for HD 17156 was negative but covered only 25% of the search space and so is not conclusive.

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Title: Evidence for a planetary companion around a nearby young star
Authors: J. Setiawan (1), P. Weise (1), Th. Henning (1), R. Launhardt (1), A. Müller (1), J. Rodmann (2) ((1) Max Planck Institute for Astronomy, Heidelberg, Germany, (2) European Space Agency / ESTEC, Noordwijk, The Netherlands)

We report evidence for a planetary companion around the nearby young star HD 70573. The star is a G type dwarf located at a distance of 46 pc with age estimation between 20 and 300 Myrs. We carried out spectroscopic observations of this star with FEROS at the 2.2 m MPG/ESO telescope at La Silla. Our spectroscopic analysis yields a spectral type of G1-1.5V and an age of about 100 Myrs. Variations in stellar radial velocity of HD 70573 have been monitored since December 2003 until January 2007. The velocity accuracy of FEROS within this period is about 10 m/s. HD 70573 shows a radial velocity variation with a period of 852 ±12 days and a semi-amplitude of 149 ±6 m/s. The period of this variation is significantly longer than its rotational period, which is 3.3 days. Based on the analysis of the Ca II K emission line, Halpha and Teff variation as stellar activity indicators as well as the lack of a correlation between the bisector velocity span and the radial velocity, we can exclude the rotational modulation and non-radial pulsations as the source of the long-period radial velocity variation. Thus, the presence of a low-mass companion around the star provides the best explanation for the observed radial velocity variation. Assuming a primary mass m1=1.0 ±0.1 Msun for the host star, we calculated a minimum mass of the companion m2sini of 6.1 Mjup, which lies in the planetary mass regime, and an orbital semi-major axis of 1.76 AU. The orbit of the planet has an eccentricity of e=0.4. The planet discovery around the young star HD 70573 gives an important input for the study of debris disks around young stars and their relation to the presence of planets.

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The dual suns that rise and set over Luke Skywalker's homeworld in the film Star Wars may be more than just fantasy, according to data from Nasa.In a classic scene from the 1977 movie, the hero gazes into the distance as two yellow suns set on the horizon.

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Title: Discovery of a planet around the K giant star 4 UMa
Authors: M.P. Doellinger, A. P. Hatzes, L. Pasquini, E. W. Guenther, M. Hartmann, L. Girardi, M. Esposito

Context: For the past 3 years we have been monitoring a sample of 62 K giant stars using precise stellar radial velocity measurements taken at the Thueringer Landessternwarte Tautenburg.
Aims: To search for sub-stellar companions to giant stars and to understand the nature of the diverse radial velocity variations exhibited by K giant stars.
Methods: We present precise stellar radial velocity measurements of the K1III giant star 4 UMa (HD 73108). These were obtained using the coude echelle spectrograph of 2-m Alfred Jensch Telescope. The wavelength reference for the radial velocity measurements was provided by an iodine absorption cell.
Results: Our measurements reveal that the radial velocity of 4 UMa exhibits a periodic variation of 269.3 days with a semiamplitude K = 216.8 m/s. A Keplerian orbit with an eccentricity, e = 0.43 0.02 is the most reasonable explanation for the radial velocity variations. The orbit yields a mass function, f(m) = (2.05 0.24) x 10^(- 7) M_sun. From our high resolution spectra we calculate a metallicity of -0.25 0.05 and derive a stellar mass of 1.23 M_sun 0.15 for the host star.
Conclusions: The K giant star 4 UMa hosts a substellar companion with minimum mass m sin i = 7.1 1.6 M_Jupiter.

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