Transits and Occultations

When we are fortunate enough to view an exoplanetary system nearly edge-on, the star and planet periodically eclipse each other. Observations of eclipses (transits and occultations) provide a bonanza of information that cannot be obtained from radial-velocity data alone, such as the relative dimensions of the planet and its host star, as well as the orientation of the planet's orbit relative to the sky plane and relative to the stellar rotation axis. The wavelength-dependence of the eclipse signal gives clues about the the temperature and composition of the planetary atmosphere. Anomalies in the timing or other properties of the eclipses may betray the presence of additional planets or moons. Searching for eclipses is also a productive means of discovering new planets. This chapter reviews the basic geometry and physics of eclipses, and summarizes the knowledge that has been gained through eclipse observations, as well as the information that might be gained in the future.

[1]  E. University,et al.  Periastron precession measurements in transiting extrasolar planetary systems at the level of general relativity , 2008, 0806.0629.

[2]  T. Brown,et al.  Detection of Planetary Transits Across a Sun-like Star , 1999, The Astrophysical journal.

[3]  S. Seager,et al.  A Unique Solution of Planet and Star Parameters from an Extrasolar Planet Transit Light Curve , 2002, astro-ph/0206228.

[4]  David Charbonneau,et al.  Hubble Space Telescope Time-Series Photometry of the Transiting Planet of HD?209458 , 2001 .

[5]  I. Hubeny,et al.  Possible Solutions to the Radius Anomalies of Transiting Giant Planets , 2006 .

[6]  Z. Kopal The Royal Road of Eclipses , 1981 .

[7]  John Asher Johnson,et al.  ON THE SPIN–ORBIT MISALIGNMENT OF THE XO-3 EXOPLANETARY SYSTEM , 2009, 0902.3461.

[8]  LEAVITT: A MIDEX-class Mission for Finding & Characterizing 10,000 Transiting Planets in the Solar Neighborhood , 2007, 0704.3072.

[9]  Timothy M. Brown,et al.  Time-Resolved CCD Photometry of an Ensemble of Stars , 1988 .

[10]  Joshua N. Winn,et al.  PARAMETER ESTIMATION FROM TIME-SERIES DATA WITH CORRELATED ERRORS: A WAVELET-BASED METHOD AND ITS APPLICATION TO TRANSIT LIGHT CURVES , 2009, 0909.0747.

[11]  Marcin Kubiak,et al.  The Optical Gravitational Lensing Experiment , 1992 .

[12]  Josef Kallrath,et al.  Eclipsing Binary Stars: Modeling and Analysis - Astronomy and Astrophysics Library , 2009 .

[13]  T. Appourchaux,et al.  RADIUS DETERMINATION OF SOLAR-TYPE STARS USING ASTEROSEISMOLOGY: WHAT TO EXPECT FROM THE KEPLER MISSION , 2009, 0906.0766.

[14]  Philip C. Gregory,et al.  Bayesian Logical Data Analysis for the Physical Sciences: Acknowledgements , 2005 .

[15]  D. Nesvorný TRANSIT TIMING VARIATIONS FOR ECCENTRIC AND INCLINED EXOPLANETS , 2009 .

[16]  B. Scott Gaudi,et al.  Prospects for the Characterization and Confirmation of Transiting Exoplanets via the Rossiter-McLaughlin Effect , 2006, astro-ph/0608071.

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

[18]  T. Brown Transmission Spectra as Diagnostics of Extrasolar Giant Planet Atmospheres , 2001, astro-ph/0101307.

[19]  D. Kipping Transiting planets – light-curve analysis for eccentric orbits , 2008, 0807.0096.

[20]  K. Zebrun,et al.  The Optical Gravitational Lensing Experiment. Search for Planetary and Low- Luminosity Object Transits in the Galactic Disk. Results of 2001 Campaign -- Supplement , 2002 .

[21]  R. W. Noyes,et al.  A trend filtering algorithm for wide-field variability surveys , 2004 .

[22]  Motohide Tamura,et al.  First Evidence of a Retrograde Orbit of a Transiting Exoplanet HAT-P-7b , 2009, 0908.1673.

[23]  David M. Kipping,et al.  Transit Timing Effects Due to an Exomoon , 2008, 0810.2243.

[24]  F. Marzari,et al.  INTERACTION OF A GIANT PLANET IN AN INCLINED ORBIT WITH A CIRCUMSTELLAR DISK , 2009, 0909.4375.

[25]  Ignasi Ribas,et al.  A correlation between the heavy element content of transiting extrasolar planets and the metallicity of their parent stars , 2006, astro-ph/0605751.

[26]  R. G. West,et al.  Efficient identification of exoplanetary transit candidates from SuperWASP light curves , 2007, 0707.0417.

[27]  Avi Shporer,et al.  The Transit Light Curve Project. V. System Parameters and Stellar Rotation Period of HD 189733 , 2006, astro-ph/0612224.

[28]  C. Moutou,et al.  Misaligned spin-orbit in the XO-3 planetary system?† , 2008, Proceedings of the International Astronomical Union.

[29]  C. Moutou,et al.  Photometric and spectroscopic detection of the primary transit of the 111-day-period planet HD 80 606 b , 2009, 0902.4457.

[30]  S. Seager,et al.  Constraining the Rotation Rate of Transiting Extrasolar Planets by Oblateness Measurements , 2002, astro-ph/0204225.

[31]  Gautam Vasisht,et al.  The presence of methane in the atmosphere of an extrasolar planet , 2008, Nature.

[32]  Matthew J. Holman,et al.  The Use of Transit Timing to Detect Terrestrial-Mass Extrasolar Planets , 2005, Science.

[33]  P. Gregory Bayesian Logical Data Analysis for the Physical Sciences: A Comparative Approach with Mathematica® Support , 2005 .

[34]  Steve B. Howell,et al.  A Technique for Ultrahigh‐Precision CCD Photometry , 2001 .

[35]  E. Baines,et al.  Direct Measurement of the Radius and Density of the Transiting Exoplanet HD 189733b with the CHARA Array , 2007, 0704.3722.

[36]  David Charbonneau,et al.  Design Considerations for a Ground-Based Transit Search for Habitable Planets Orbiting M Dwarfs , 2007, 0709.2879.

[37]  Andrew Gould,et al.  Using All-Sky Surveys to Find Planetary Transits , 2002 .

[38]  Joshua N. Winn,et al.  EXOPLANETARY SPIN–ORBIT ALIGNMENT: RESULTS FROM THE ENSEMBLE OF ROSSITER–MCLAUGHLIN OBSERVATIONS , 2009, 0902.0737.

[39]  Drake Deming,et al.  Rapid heating of the atmosphere of an extrasolar planet , 2009, Nature.

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

[41]  Tristan Guillot,et al.  Astronomy and Astrophysics Evolution of " 51 Peg B-like " Planets , 2001 .

[42]  Nicola Rando,et al.  Current status of the assessment of the ESA Cosmic Vision mission candidate PLATO , 2009, Optical Engineering + Applications.

[43]  S. Ravi Bayesian Logical Data Analysis for the Physical Sciences: a Comparative Approach with Mathematica® Support , 2007 .

[44]  David Charbonneau,et al.  Using Stellar Limb-Darkening to Refine the Properties of HD 209458b , 2006, astro-ph/0603542.

[45]  R. Hilditch An Introduction to Close Binary Stars , 2001 .

[46]  Orbital Perturbations of Transiting Planets: A Possible Method to Measure Stellar Quadrupoles and to Detect Earth-Mass Planets , 2001, astro-ph/0104034.

[47]  Gilles Chabrier,et al.  Heat transport in giant (exo)planets: a new perspective , 2007 .

[48]  Penny D. Sackett Searching for Unseen Planets Via Occultation and Microlensing , 1998 .

[49]  Geza Kovacs,et al.  HAT-P-13b,c: A TRANSITING HOT JUPITER WITH A MASSIVE OUTER COMPANION ON AN ECCENTRIC ORBIT , 2009, 0907.3525.

[50]  A. Claret,et al.  A new non-linear limb-darkening law for LTE stellar atmosphere models. Calculations for -5.0 <= log[M/H ] <= +1, 2000 K <= Teff <= 50000 K at several surface gravities , 2000 .

[51]  P. R. McCullough,et al.  ApJ, in press Preprint typeset using L ATEX style emulateapj v. 10/09/06 PHOTOMETRIC DETECTION OF A TRANSIT OF HD 80606B , 2022 .

[52]  MEASURING THE OBLATENESS AND ROTATION OF TRANSITING EXTRASOLAR GIANT PLANETS , 2003, astro-ph/0301156.

[53]  J. Southworth Homogeneous studies of transiting extrasolar planets - II. Physical properties , 2008, 0811.3277.

[54]  Frederic Pont,et al.  The effect of red noise on planetary transit detection , 2006, astro-ph/0608597.

[55]  John C. Geary,et al.  The Kepler mission: a wide-field-of-view photometer designed to determine the frequency of Earth-size planets around solar-like stars , 2003, SPIE Astronomical Telescopes + Instrumentation.

[56]  J. D. Kort Upper and lower limits for the eccentricity and longitude of periastron of an eclipsing binary , 1954 .

[57]  Xavier Bonfils,et al.  A super-Earth transiting a nearby low-mass star , 2009, Nature.

[58]  Keith Horne Status and Prospects of Planetary Transit Searches: Hot Jupiters Galore , 2003 .

[59]  Darin Ragozzine,et al.  PROBING THE INTERIORS OF VERY HOT JUPITERS USING TRANSIT LIGHT CURVES , 2008, Proceedings of the International Astronomical Union.

[60]  M. Holman,et al.  The Transit Light Curve Project. III. Tres Transits of TrES-1 , 2006, astro-ph/0611404.

[61]  M. Holman,et al.  Accepted for publication in The Astrophysical Journal Preprint typeset using L ATEX style emulateapj v. 10/09/06 IMPROVED PARAMETERS FOR EXTRASOLAR TRANSITING PLANETS , 2008 .

[62]  John Southworth,et al.  A method for the direct determination of the surface gravities of transiting extrasolar planets , 2007, 0704.1570.

[63]  R. Gilliland,et al.  Detection of an Extrasolar Planet Atmosphere , 2001, astro-ph/0111544.

[64]  M. Holman,et al.  Five New Transits of the Super-Neptune HD 149026b , 2007, 0711.1888.

[65]  E. Agol,et al.  On detecting terrestrial planets with timing of giant planet transits , 2004 .

[66]  J. Winn,et al.  EMPIRICAL CONSTRAINTS ON THE OBLATENESS OF AN EXOPLANET , 2009, 0912.1594.

[67]  Jonathan J. Fortney,et al.  Transit Detectability of Ring Systems around Extrasolar Giant Planets , 2004 .

[68]  E. Ford,et al.  Observational Constraints on Trojans of Transiting Extrasolar Planets , 2006, astro-ph/0609298.

[69]  Hans Kjeldsen,et al.  HIGH-PRECISION TIME-RESOLVED CCD PHOTOMETRY , 1992 .

[70]  Marc Ollivier,et al.  The CoRoT space mission : early results Special feature The CoRoT-7 planetary system : two orbiting super-Earths , 2009 .

[71]  Tsevi Mazeh,et al.  Correcting systematic effects in a large set of photometric light curves , 2005, astro-ph/0502056.

[72]  R. G. West,et al.  An orbital period of 0.94 days for the hot-Jupiter planet WASP-18b , 2009, Nature.

[73]  I. Hubeny,et al.  A Possible Bifurcation in Atmospheres of Strongly Irradiated Stars and Planets , 2003 .

[74]  J. Almenara,et al.  A cool starspot or a second transiting planet in the TrES-1 system? , 2008, 0812.1799.

[75]  Sara Seager,et al.  On the Period Distribution of Close-in Extrasolar Giant Planets , 2005 .

[76]  B. Scott Gaudi On the Size Distribution of Close-In Extrasolar Giant Planets , 2005 .

[77]  Tel Aviv,et al.  An intriguing correlation between the masses and periods of the transiting planets , 2004, astro-ph/0411701.

[78]  Otto Struve,et al.  Proposal for a project of high-precision stellar radial velocity work , 1952 .

[79]  M. Barbieri,et al.  HD 17156b: A Transiting Planet with a 21.2 Day Period and an Eccentric Orbit , 2007, 0710.0898.

[80]  A. Jordán,et al.  Accepted for publication in ApJ Preprint typeset using L ATEX style emulateapj v. 10/09/06 OBSERVABILITY OF THE GENERAL RELATIVISTIC PRECESSION OF PERIASTRA IN EXOPLANETS , 2022 .

[81]  A. Sozzetti,et al.  HAT-P-3b: A Heavy-Element-rich Planet Transiting a K Dwarf Star , 2007, 0707.4268.

[82]  Zucker,et al.  The Spectroscopic Orbit of the Planetary Companion Transiting HD 209458. , 2000, The Astrophysical journal.

[83]  K. Lodders,et al.  ATMOSPHERIC SULFUR PHOTOCHEMISTRY ON HOT JUPITERS , 2009, 0903.1663.

[84]  A. C. Carciofi,et al.  The Polarization Signature of Extrasolar Planet Transiting Cool Dwarfs , 2005, astro-ph/0508343.

[85]  A. Barker,et al.  On the tidal evolution of Hot Jupiters on inclined orbits , 2009, 0902.4563.

[86]  B. Gaudi,et al.  Predicting the Yields of Photometric Surveys for Transiting Extrasolar Planets , 2008, 0804.1150.

[87]  A. Claret,et al.  A new non-linear limb-darkening law for LTE stellar atmosphere models III , 2000 .

[88]  David Charbonneau,et al.  A map of the day–night contrast of the extrasolar planet HD 189733b , 2007, Nature.

[89]  Pin Chen,et al.  Submitted to the Astrophysical Journal Letters Molecular Signatures in the Near Infrared Dayside Spectrum of , 2022 .

[90]  T. E. Sterne On the Determination of the Orbital Elements of Eccentric Eclipsing Binaries. , 1940, Proceedings of the National Academy of Sciences of the United States of America.

[91]  William J. Chancellor,et al.  Soil Physical Properties , 1994 .

[92]  R. G. West,et al.  WASP-17b: AN ULTRA-LOW DENSITY PLANET IN A PROBABLE RETROGRADE ORBIT , 2009, 0908.1553.

[93]  Portugal,et al.  Accurate Spitzer infrared radius measurement for the hot Neptune GJ 436b , 2007, 0707.2261.

[94]  Z. Kopal Language of the Stars: A Discourse on the Theory of the Light Changes of Eclipsing Variables , 1979 .

[95]  G. Kov'acs,et al.  A box-fitting algorithm in the search for periodic transits , 2002, astro-ph/0206099.

[96]  G. Laughlin,et al.  Discovery and Characterization of Transiting Super Earths Using an All-Sky Transit Survey and Follow-up by the James Webb Space Telescope , 2009, 0903.4880.

[97]  Á. Giménez Equations for the analysis of the light curves of extra-solar planetary transits , 2006 .

[98]  Jennifer C. Yee,et al.  Analytic Approximations for Transit Light-Curve Observables, Uncertainties, and Covariances , 2008, 0805.0238.

[99]  Jonathan Tennyson,et al.  Water vapour in the atmosphere of a transiting extrasolar planet , 2007, Nature.

[100]  Carl J. Grillmair,et al.  Strong water absorption in the dayside emission spectrum of the planet HD 189733b , 2008, Nature.

[101]  S. Kane Detectability of exoplanetary transits from radial velocity surveys , 2007, 0706.3704.

[102]  John Southworth,et al.  Homogeneous studies of transiting extrasolar planets – I. Light-curve analyses , 2008, 0802.3764.

[103]  The N2K Consortium. II. A Transiting Hot Saturn around HD 149026 with a Large Dense Core , 2005, astro-ph/0507009.

[104]  S. Seager,et al.  A TEMPERATURE AND ABUNDANCE RETRIEVAL METHOD FOR EXOPLANET ATMOSPHERES , 2009, 0910.1347.

[105]  A. Claret Does the HD 209458 planetary system pose a challenge to the stellar atmosphere models , 2009 .

[106]  David Charbonneau,et al.  TrES-1: The Transiting Planet of a Bright K0 V Star , 2004 .

[107]  Princeton,et al.  Theoretical Transmission Spectra during Extrasolar Giant Planet Transits , 1999, astro-ph/9912241.

[108]  R. P. Butler,et al.  A Transiting “51 Peg-like” Planet , 2000, The Astrophysical journal.

[109]  B. Enoch,et al.  The WASP Project and the SuperWASP Cameras , 2006, astro-ph/0608454.

[110]  J. E. Stys,et al.  The XO Project: Searching for Transiting Extrasolar Planet Candidates , 2005, astro-ph/0505560.

[111]  K. Freeman,et al.  An Absence of Hot Jupiter Planets in 47 Tucanae: Results of a Wide-Field Transit Search , 2004, astro-ph/0411233.

[112]  David Charbonneau,et al.  A Lack of Planets in 47 Tucanae from a Hubble Space Telescope Search , 2000 .

[113]  Sara Seager,et al.  The Very Low Albedo of an Extrasolar Planet: MOST Space-based Photometry of HD 209458 , 2007, 0711.4111.

[114]  David M. Kipping,et al.  Detection of a transit by the planetary companion of HD 80606 , 2009, 0902.4616.

[115]  Steve B. Howell,et al.  Handbook of CCD Astronomy , 2000 .

[116]  J. Winn,et al.  EMPIRICAL CONSTRAINTS ON TROJAN COMPANIONS AND ORBITAL ECCENTRICITIES IN 25 TRANSITING EXOPLANETARY SYSTEMS , 2008, 0811.1996.

[117]  W. D. Cochran,et al.  Kepler’s Optical Phase Curve of the Exoplanet HAT-P-7b , 2009, Science.

[118]  Stephen P. Boyd,et al.  Trend Filtering ∗ , 2009 .

[119]  Carnegie,et al.  HAT-P-1b: A Large-Radius, Low-Density Exoplanet Transiting One Member of a Stellar Binary* ** , 2007 .

[120]  S. H. Reiger,et al.  Starlight scintillation and atmospheric turbulence , 1963 .

[121]  et al,et al.  The CoRoT space mission : early results Special feature Transiting exoplanets from the CoRoT space mission VIII . CoRoT-7 b : the first super-Earth with measured radius , 2009 .

[122]  Andrew T. Young,et al.  Photometric error analysis. VI. Confirmation of Reiger's theory of scintillation , 1967 .

[123]  Outcome of Six Candidate Transiting Planets from a TrES Field in Andromeda , 2006, astro-ph/0610603.

[124]  D. Sandler,et al.  Scintillation Reduction Method for Photometric Measurements , 1998 .

[125]  M. Holman,et al.  HAT-P-7: A RETROGRADE OR POLAR ORBIT, AND A THIRD BODY , 2009, 0908.1672.

[126]  Joshua N. Winn,et al.  NEAR-INFRARED TRANSIT PHOTOMETRY OF THE EXOPLANET HD 149026b , 2009, 0902.1542.

[127]  D. Sasselov The New Transiting Planet OGLE-TR-56b: Orbit and Atmosphere , 2003, astro-ph/0303403.

[128]  G. Hebrard,et al.  Transit spectrophotometry of the exoplanet HD189733b. I. Searching for water but finding haze with HST NICMOS , 2009, 0907.4991.

[129]  David M. Kipping Transit timing effects due to an exomoon , 2009 .

[130]  A. Claret,et al.  A new non-linear limb-darkening law for LTE stellar atmosphere models III - Sloan filters: Calculations for –5.0 ≤ log [M/H] ≤ +1, 2000 K ≤ T$\mathsf{_{eff}}$ ≤ 50 000 K at several surface gravities , 2004 .

[131]  J. Fortney,et al.  INFLATING AND DEFLATING HOT JUPITERS: COUPLED TIDAL AND THERMAL EVOLUTION OF KNOWN TRANSITING PLANETS , 2009, 0907.1268.

[132]  C. Moutou,et al.  Detection of atmospheric haze on an extrasolar planet: the 0.55–1.05 μm transmission spectrum of HD 189733b with the Hubble Space Telescope , 2007, 0712.1374.

[133]  M. Mayor,et al.  An extended upper atmosphere around the extrasolar planet HD209458b , 2003, Nature.

[134]  S. Albrecht,et al.  The changing phases of extrasolar planet CoRoT-1b , 2009, Nature.