THREE SUPER-EARTHS ORBITING HD 7924

We report the discovery of two super-Earth mass planets orbiting the nearby K0.5 dwarf HD 7924 which was previously known to host one small planet. The new companions have masses of 7.9 and 6.4 M$_\oplus$, and orbital periods of 15.3 and 24.5 days. We perform a joint analysis of high-precision radial velocity data from Keck/HIRES and the new Automated Planet Finder Telescope (APF) to robustly detect three total planets in the system. We refine the ephemeris of the previously known planet using five years of new Keck data and high-cadence observations over the last 1.3 years with the APF. With this new ephemeris, we show that a previous transit search for the inner-most planet would have covered 70% of the predicted ingress or egress times. Photometric data collected over the last eight years using the Automated Photometric Telescope shows no evidence for transits of any of the planets, which would be detectable if the planets transit and their compositions are hydrogen-dominated. We detect a long-period signal that we interpret as the stellar magnetic activity cycle since it is strongly correlated with the Ca II H and K activity index. We also detect two additional short-period signals that we attribute to rotationally-modulated starspots and a one month alias. The high-cadence APF data help to distinguish between the true orbital periods and aliases caused by the window function of the Keck data. The planets orbiting HD 7924 are a local example of the compact, multi-planet systems that the Kepler Mission found in great abundance.

[1]  Y. Katherina Feng,et al.  Exoplanet Orbit Database. II. Updates to Exoplanets.org , 2014, 1409.7709.

[2]  J. Crepp,et al.  THE STELLAR OBLIQUITY AND THE LONG-PERIOD PLANET IN THE HAT-P-17 EXOPLANETARY SYSTEM , 2013, 1301.6289.

[3]  Ryan C. Terrien,et al.  HABITABLE ZONES AROUND MAIN-SEQUENCE STARS: NEW ESTIMATES , 2013, 1301.6674.

[4]  C. Spearman The proof and measurement of association between two things. By C. Spearman, 1904. , 1987, The American journal of psychology.

[5]  J. Valenti,et al.  Spectroscopic Properties of Cool Stars (SPOCS). I. 1040 F, G, and K Dwarfs from Keck, Lick, and AAT Planet Search Programs , 2005 .

[6]  L. Roberts,et al.  KNOW THE STAR, KNOW THE PLANET. II. SPECKLE INTERFEROMETRY OF EXOPLANET HOST STARS , 2011, 1109.4569.

[7]  Russel J. White,et al.  STELLAR DIAMETERS AND TEMPERATURES. II. MAIN-SEQUENCE K- AND M-STARS , 2012, 1208.2431.

[8]  William T. S. Deich,et al.  A comparison of exposure meter systems for three exoplanet-hunting spectrometers: Hamilton, HIRES and APF , 2006, SPIE Astronomical Telescopes + Instrumentation.

[9]  Howard Isaacson,et al.  THE NASA-UC ETA-EARTH PROGRAM. II. A PLANET ORBITING HD 156668 WITH A MINIMUM MASS OF FOUR EARTH MASSES , 2010, 1003.3444.

[10]  E. Agol,et al.  VALIDATION OF KEPLER'S MULTIPLE PLANET CANDIDATES. III. LIGHT CURVE ANALYSIS AND ANNOUNCEMENT OF HUNDREDS OF NEW MULTI-PLANET SYSTEMS , 2014, 1402.6534.

[11]  S. Hinkley,et al.  FRIENDS OF HOT JUPITERS. I. A RADIAL VELOCITY SEARCH FOR MASSIVE, LONG-PERIOD COMPANIONS TO CLOSE-IN GAS GIANT PLANETS , 2013, 1312.2954.

[12]  Michael C. Kotson,et al.  A STUDY OF THE SHORTEST-PERIOD PLANETS FOUND WITH KEPLER , 2014, 1403.2379.

[13]  Jason T. Wright,et al.  RETIRED A STARS AND THEIR COMPANIONS. VII. 18 NEW JOVIAN PLANETS , 2011, 1108.4205.

[14]  David M. Kipping,et al.  THE HUNT FOR EXOMOONS WITH KEPLER (HEK). IV. A SEARCH FOR MOONS AROUND EIGHT M DWARFS , 2014, 1401.1210.

[15]  M. Tsantaki,et al.  SWEET-Cat: A catalogue of parameters for Stars With ExoplanETs - I. New atmospheric parameters and masses for 48 stars with planets , 2013, 1307.0354.

[16]  F. Fressin,et al.  THE FALSE POSITIVE RATE OF KEPLER AND THE OCCURRENCE OF PLANETS , 2013, 1301.0842.

[17]  F. Bouchy,et al.  The HARPS search for southern extra-solar planets: XVIII. An Earth-mass planet in the GJ 581 planetary system , 2009, 0906.2780.

[18]  Jean-Luc Margot,et al.  ARCHITECTURE OF PLANETARY SYSTEMS BASED ON KEPLER DATA: NUMBER OF PLANETS AND COPLANARITY , 2012, 1207.5250.

[19]  S. Mahadevan,et al.  HOST STAR PROPERTIES AND TRANSIT EXCLUSION FOR THE HD 38529 PLANETARY SYSTEM , 2013, 1303.4735.

[20]  G. Marcy,et al.  Prevalence of Earth-size Planets Orbiting Sun-like Stars , 2015, 1510.03902.

[21]  N. Lomb Least-squares frequency analysis of unequally spaced data , 1976 .

[22]  John C. Geary,et al.  ARCHITECTURE OF KEPLER'S MULTI-TRANSITING SYSTEMS. II. NEW INVESTIGATIONS WITH TWICE AS MANY CANDIDATES , 2012, The Astrophysical Journal.

[23]  S. Baliunas,et al.  No Planet for Hd 166435 , 2022 .

[24]  Cajo J. F. ter Braak,et al.  A Markov Chain Monte Carlo version of the genetic algorithm Differential Evolution: easy Bayesian computing for real parameter spaces , 2006, Stat. Comput..

[25]  Avi Shporer,et al.  LONG-TERM TRANSIT TIMING MONITORING AND REFINED LIGHT CURVE PARAMETERS OF HAT-P-13b , 2011, 1105.5599.

[26]  D. Ciardi,et al.  Stellar diameters and temperatures - V. 11 newly characterized exoplanet host stars , 2013, 1312.1792.

[27]  B. Hansen,et al.  MIGRATION THEN ASSEMBLY: FORMATION OF NEPTUNE-MASS PLANETS INSIDE 1 AU , 2011, 1105.2050.

[28]  H. Schlichting FORMATION OF CLOSE IN SUPER-EARTHS AND MINI-NEPTUNES: REQUIRED DISK MASSES AND THEIR IMPLICATIONS , 2014, 1410.1060.

[29]  E. Chiang,et al.  MAKE SUPER-EARTHS, NOT JUPITERS: ACCRETING NEBULAR GAS ONTO SOLID CORES AT 0.1 AU AND BEYOND , 2014, 1409.3578.

[30]  Structure and Evolution of Nearby Stars with Planets. II. Physical Properties of ~1000 Cool Stars from the SPOCS Catalog , 2006, astro-ph/0607235.

[31]  A. Gimenez,et al.  Accurate masses and radii of normal stars: modern results and applications , 2009, 0908.2624.

[32]  S. T. Ridgway,et al.  First Results from the CHARA Array. II. A Description of the Instrument , 2005 .

[33]  J. Valenti,et al.  THE NASA-UC ETA-EARTH PROGRAM. I. A SUPER-EARTH ORBITING HD 7924 , 2009, 0901.4394.

[34]  Las Cumbres Observatory Global Telescope Network,et al.  PLANETARY CANDIDATES OBSERVED BY KEPLER. III. ANALYSIS OF THE FIRST 16 MONTHS OF DATA , 2012, 1202.5852.

[35]  J. Chambers A hybrid symplectic integrator that permits close encounters between massive bodies , 1999 .

[36]  S. Baliunas,et al.  A Prescription for period analysis of unevenly sampled time series , 1986 .

[37]  Howard Isaacson,et al.  A rocky composition for an Earth-sized exoplanet , 2013, Nature.

[38]  Howard Isaacson,et al.  CHROMOSPHERIC ACTIVITY AND JITTER MEASUREMENTS FOR 2630 STARS ON THE CALIFORNIA PLANET SEARCH , 2010, 1009.2301.

[39]  Michel Mayor,et al.  An extrasolar planetary system with three Neptune-mass planets , 2006, Nature.

[40]  E. Agol,et al.  A SPITZER SEARCH FOR TRANSITS OF RADIAL VELOCITY DETECTED SUPER-EARTHS , 2013, 1310.7952.

[41]  G. Laughlin,et al.  The minimum-mass extrasolar nebula: in situ formation of close-in super-Earths , 2012, 1211.1673.

[42]  B. Scott Gaudi,et al.  Achieving Better Than 1 Minute Accuracy in the Heliocentric and Barycentric Julian Dates , 2010, 1005.4415.

[43]  R. Paul Butler,et al.  APF—The Lick Observatory Automated Planet Finder , 2014, 1402.6684.

[44]  G. Marcy,et al.  THE MASS–RADIUS RELATION FOR 65 EXOPLANETS SMALLER THAN 4 EARTH RADII , 2013, 1312.0936.

[45]  F. Fressin,et al.  CHARACTERISTICS OF PLANETARY CANDIDATES OBSERVED BY KEPLER. II. ANALYSIS OF THE FIRST FOUR MONTHS OF DATA , 2011, 1102.0541.

[46]  Andrew Szentgyorgyi,et al.  An Earth-sized planet with an Earth-like density , 2013, Nature.

[47]  A. Fortier,et al.  Theoretical models of planetary system formation: mass vs. semi-major axis , 2013, 1307.4864.

[48]  B. Demory THE ALBEDOS OF KEPLER'S CLOSE-IN SUPER-EARTHS , 2014, 1405.3798.

[49]  Eric B. Ford,et al.  Improving the Efficiency of Markov Chain Monte Carlo for Analyzing the Orbits of Extrasolar Planets , 2005, astro-ph/0512634.

[50]  R. Paul Butler,et al.  THE LICK–CARNEGIE EXOPLANET SURVEY: GLIESE 687 b—A NEPTUNE-MASS PLANET ORBITING A NEARBY RED DWARF , 2014, 1405.2929.

[51]  B. Scott Gaudi,et al.  EXOFAST: A Fast Exoplanetary Fitting Suite in IDL , 2012, 1206.5798.

[52]  M. R. Haas,et al.  MASSES, RADII, AND ORBITS OF SMALL KEPLER PLANETS: THE TRANSITION FROM GASEOUS TO ROCKY PLANETS , 2014, 1401.4195.

[53]  D. Queloz,et al.  The HARPS search for Earth-like planets in the habitable zone - I. Very low-mass planets around HD 20794, HD 85512, and HD 192310 , 2011, 1108.3447.

[54]  H. Rix,et al.  The James Webb Space Telescope , 2006, astro-ph/0606175.

[55]  S. Ida,et al.  Towards a Deterministic Model of Planetary Formation I: a Desert in the Mass and Semi Major Axis Distributions of Extra Solar Planets , 2022 .

[56]  S. Aigrain,et al.  Correction to: A simple method to estimate radial velocity variations due to stellar activity using photometry , 2011, Monthly Notices of the Royal Astronomical Society.

[57]  L. Rogers MOST 1.6 EARTH-RADIUS PLANETS ARE NOT ROCKY , 2014, 1407.4457.

[58]  J. Scargle Studies in astronomical time series analysis. II - Statistical aspects of spectral analysis of unevenly spaced data , 1982 .

[59]  Jon M. Jenkins,et al.  ARCHITECTURE AND DYNAMICS OF KEPLER'S CANDIDATE MULTIPLE TRANSITING PLANET SYSTEMS , 2011, 1102.0543.

[60]  W. Press,et al.  Fast algorithm for spectral analysis of unevenly sampled data , 1989 .

[61]  M. Couture,et al.  HIRES: the high-resolution echelle spectrometer on the Keck 10-m Telescope , 1994, Astronomical Telescopes and Instrumentation.

[62]  E. Agol,et al.  Analytic Light Curves for Planetary Transit Searches , 2002, astro-ph/0210099.

[63]  Howard Isaacson,et al.  THE NASA-UC-UH ETA-EARTH PROGRAM. IV. A LOW-MASS PLANET ORBITING AN M DWARF 3.6 PC FROM EARTH , 2014, 1408.5645.

[64]  R. P. Butler,et al.  A SUPER-EARTH AND TWO NEPTUNES ORBITING THE NEARBY SUN-LIKE STAR 61 VIRGINIS , 2009, 0912.2599.

[65]  David Charbonneau,et al.  The transit light curve project. I. Four consecutive transits of the exoplanet XO-1b , 2006 .

[66]  F. V. Leeuwen Validation of the new Hipparcos reduction , 2007, 0708.1752.

[67]  D. Lin,et al.  Toward a Deterministic Model of Planetary Formation. I. A Desert in the Mass and Semimajor Axis Distributions of Extrasolar Planets , 2004 .

[68]  J. Valenti,et al.  THE NASA-UC ETA-EARTH PROGRAM. III. A SUPER-EARTH ORBITING HD 97658 AND A NEPTUNE-MASS PLANET ORBITING Gl 785 , 2010, 1011.0414.

[69]  M. Chagas,et al.  Chromospheric activity of stars with planets , 2011, 1103.5332.

[70]  F. Bouchy,et al.  The HARPS search for southern extra-solar planets - XIII. A planetary system with 3 super-Earths (4.2, 6.9, and 9.2 M) , 2008, 0806.4587.

[71]  M. R. Haas,et al.  PLANET OCCURRENCE WITHIN 0.25 AU OF SOLAR-TYPE STARS FROM KEPLER , 2011, 1103.2541.

[72]  Howard Isaacson,et al.  The Occurrence and Mass Distribution of Close-in Super-Earths, Neptunes, and Jupiters , 2010, Science.

[73]  Debra A. Fischer,et al.  The Exoplanet Orbit Database , 2010, 1012.5676.

[74]  A. Howard,et al.  EFFICIENT FITTING OF MULTIPLANET KEPLERIAN MODELS TO RADIAL VELOCITY AND ASTROMETRY DATA , 2009, 0904.3725.

[75]  D. Lin,et al.  TOWARD A DETERMINISTIC MODEL OF PLANETARY FORMATION. VI. DYNAMICAL INTERACTION AND COAGULATION OF MULTIPLE ROCKY EMBRYOS AND SUPER-EARTH SYSTEMS AROUND SOLAR-TYPE STARS , 2010, 1006.2584.

[76]  Daniel C. Fabrycky,et al.  RADIAL VELOCITY PLANETS DE-ALIASED: A NEW, SHORT PERIOD FOR SUPER-EARTH 55 Cnc e , 2010, 1005.4050.

[77]  Willy Benz,et al.  Extrasolar planet population synthesis I: Method, formation tracks and mass-distance distribution , 2009, 0904.2524.

[78]  R. P. Butler,et al.  THE FREQUENCY OF LOW-MASS EXOPLANETS , 2009, 0906.4619.

[79]  R. P. Butler,et al.  ATTAINING DOPPLER PRECISION OF 3 M S-1 , 1996 .