Planet Occurrence Rate Papers
This page contains a compilation of published, refereed papers that derive planet occurrence rates. To suggest a paper for inclusion on this page, please submit a Helpdesk ticket.
| Author(s) and Publication Year | Title | Publication |
|---|---|---|
| Thomas, L. et al (2024) | Search for giant planets in M 67 V: A warm Jupiter orbiting the turn-off star S1429 | A&A 686 19 |
| Gan et al. (2024) | Relative Occurrence Rate between Hot and Cold Jupiters as an Indicator to Probe Planet Migration | ApJ 967 74 |
| Su, Zhang, & Zhou (2024) | Mutual occurrence ratio of planets - I. New clues to reveal origins of hot and warm Jupiter from the RV sample | MNRAS 529 3958 |
| Dattilo & Batalha (2024) | A Unified Treatment of Kepler Occurrence to Trace Planet Evolution. II. The Radius Cliff Formed by Atmospheric Escape | AJ 167 288 |
| Vach et al. (2024) | The occurrence of small, short-period planets younger than 200 Myr with TESS | Accepted in Aj, arXiv:2403.03261 |
| Miyazaki & Masuda (2023) | Evidence That the Occurrence Rate of Hot Jupiters around Sun-like Stars Decreases with Stellar Age | AJ 166 209 |
| Bonomo et al. (2023) | Cold Jupiters and improved masses in 38 Kepler and K2 small planet systems from 3661 HARPS-N radial velocities. No excess of cold Jupiters in small planet systems | A&A 677 33 |
| Gan et al. (2023) | Occurrence Rate of Hot Jupiters Around Early-type M Dwarfs Based on Transiting Exoplanet Survey Satellite Data | AJ 165 17 |
| Bryant, Bayliss, & Van Eylen (2023) | The occurrence rate of giant planets orbiting low-mass stars with TESS | MNRAS 521 3663 |
| Ribas et al. (2023) | The CARMENES search for exoplanets around M dwarfs. Guaranteed time observations Data Release 1 (2016–2020) | A&A 670 139 |
| Yee & Winn (2023) | The Period Distribution of Hot Jupiters Is Not Dependent on Host Star Metallicity | ApJ 949 21 |
| Pass et al. (2023) | Mid-to-late M Dwarfs Lack Jupiter Analogs | AJ 166 11 |
| Ment & Charbonneau (2023) | The Occurrence Rate of Terrestrial Planets Orbiting Nearby Mid-to-late M Dwarfs from TESS Sectors 1-42 | AJ 165 265 |
| Yang et al. (2023) | Planets Across Space and Time (PAST). IV. The Occurrence and Architecture of Kepler Planetary Systems as a Function of Kinematic Age Revealed by the LAMOST-Gaia-Kepler Sample | AJ 166 243 |
| Bennette, Ranc, & Fernandes (2021) | No Sub-Saturn-mass Planet Desert in the CORALIE/HARPS Radial-velocity Sample | AJ 162 6 |
| Rosenthal, L. et al (2022) | The California Legacy Survey. III. On the Shoulders of (Some) Giants: The Relationship between Inner Small Planets and Outer Massive Planets | ApJS 262 1 |
| Wolthoff, V. et al. (2022) | Precise radial velocities of giant stars. XVI. Planet occurrence rates from the combined analysis of the Lick, EXPRESS, and PPPS giant star surveys | A&A 661A 63 |
| Pinamonti et al. (2022) | HADES RV Programme with HARPS-N at TNG XV. Planetary occurrence rates around early-M dwarfs | A&A 664A 65 |
| Vigan et al. (2021) | The SPHERE infrared survey for exoplanets (SHINE). III. The demographics of young giant exoplanets below 300 au with SPHERE | A&A 651 72 |
| Koshimoto, N. et al. (2021) | No Large Dependence of Planet Frequency on Galactocentric Distance | ApJ 918L 8 |
| Boley et al. (2021) | Searching For Transiting Planets Around Halo Stars. II. Constraining the Occurrence Rate of Hot Jupiters | AJ 162 85 |
| Sabotta et al. (2021) | The CARMENES search for exoplanets around M dwarfs. Planet occurrence rates from a subsample of 71 stars | A&A 653A 114 |
| Su et al. (2021) | Demographics of Exoplanets in Binaries. I. Architecture of S-type Planetary Systems Revealed by the Radial-velocity Sample | AJ 162 272 |
| Poleski et al. (2021) | Wide-orbit exoplanets are common. Analysis of nearly 20 years of OGLE microlensing survey data | AcA 71 1 |
| Kunimoto et al. (2021) | Combining Transit and Radial Velocity: A Synthesized Population Model | AJ 161 69 |
| Bryson et al. (2021) | The Occurrence of Rocky Habitable-zone Planets around Solar-like Stars from Kepler Data | AJ 161 36 |
| Jin, Sheng (2021) | Relative occurrence rates of terrestrial planets orbiting FGK stars | MNRAS 502 5302 |
| Wittenmyer et al. (2020) | Cool Jupiters greatly outnumber their toasty siblings: occurrence rates from the Anglo-Australian Planet Search | MNRAS 492 377 |
| Berger et al. (2020) | The Gaia-Kepler Stellar Properties Catalog. II. Planet Radius Demographics as a Function of Stellar Mass and Age | AJ 160 108 |
| Lienhard, F. et al. (2020) | Global analysis of the TRAPPIST Ultra-Cool Dwarf Transit Survey | MNRAS 497 3790 |
| Zink et al. (2020) | Scaling K2. III. Comparable Planet Occurrence in the FGK Samples of Campaign 5 and Kepler | AJ 160 94 |
| Yang, Jia-Yi, Xie, Ji-Wei, & Zhou, Ji-Lin (2020) | Occurrence and Architecture of Kepler Planetary Systems as Functions of Stellar Mass and Effective Temperature | AJ 159 164 |
| Bashi et al. (2020) | Occurrence rates of small planets from HARPS: Focus on the Galactic context | A&A 643 A106 |
| Lu, Schlaufman, & Cheng (2020) | An Increase in Small-planet Occurrence with Metallicity for Late-type Dwarf Stars in the Kepler Field and Its Implications for Planet Formation | AJ 160 253 |
| Bryson et al. (2020) | A Probabilistic Approach to Kepler Completeness and Reliability for Exoplanet Occurrence Rates | AJ 159 6 |
| Kunimoto & Bryson (2020) | Comparing Approximate Bayesian Computation with the Poisson-Likelihood Method for Exoplanet Occurrence Rates | RNAAS 4 83 |
| Kunimoto & Matthews (2020) | Searching the Entirety of Kepler Data. II. Occurrence Rate Estimates for FGK Stars | AJ 159 248 |
| Bryson (2020) | Exoplanet Occurrence Rates of Mid M-dwarfs Based on Kepler DR25 | RNAAS 4 3 |
| Martin et al. (2019) | The BEBOP radial-velocity survey for circumbinary planets. I. Eight years of CORALIE observations of 47 single-line eclipsing binaries and abundance constraints on the masses of circumbinary planets | A&A 624 68 |
| Dai et al. (2019) | Planet Occurrence Rate Correlated to Stellar Dynamical History: Evidence from Kepler and Gaia | AJ 162 46 |
| Bashi & Zucker (2019) | Small Planets in the Galactic Context: Host Star Kinematics, Iron, and Alpha-element Enhancement | AJ 158 61 |
| Hsu, Ford, & Ragozzine (2019) | Occurrence Rates of Planets Orbiting FGK Stars: Combining Kepler DR25, Gaia DR2, and Bayesian Inference | AJ 158 109 |
| He, Ford, & Ragozzine (2019) | Architectures of exoplanetary systems - I. A clustered forward model for exoplanetary systems around Kepler's FGK stars | MNRAS 490 4575 |
| Herman, Zhu, & Wu (2019) | Revisiting the Long-period Transiting Planets from Kepler | AJ 157 248 |
| Kawahara & Masuda (2019) | Transiting Planets Near the Snow Line from Kepler. I. Catalog | AJ 157 218 |
| Mulders et al. (2019) | The Exoplanet Population Observation Simulator. II. Population Synthesis in the Era of Kepler | ApJ 887 157 |
| Grunblatt et al. (2019) | Giant planet occurrence within 0.2 au of low-luminosity red giant branch stars with K2 | AJ 158 227 |
| Fernandes et al. (2019) | Hints for a Turnover at the Snow Line in the Giant Planet Occurrence Rate | ApJ 874 81 |
| Hardegree-Ullman et al. (2019) | Kepler Planet Occurrence Rates for Mid-type M Dwarfs as a Function of Spectral Type | AJ 158 75 |
| Bryan et al. (2018) | An Excess of Jupiter Analogs in Super-Earth Systems | AJ 157 52 |
| van Sluijs, L. and Van Eylen, V. (2018) | The occurrence of planets and other substellar bodies around white dwarfs using K2 | MNRAS 474 4603 |
| Mulders et al. (2018) | The Exoplanet Population Observation Simulator. I. The Inner Edges of Planetary Systems | AJ 156 24 |
| Pascucci et al. (2018) | A Universal Break in the Planet-to-star Mass-ratio Function of Kepler MKG Stars | ApJ 856L 28 |
| Narang et al. (2018) | Properties and occurrence rates of Kepler exoplanet candidates as a function of host star metallicity from the DR25 catalog | AJ 156 24 |
| Meyer et al. (2018) | M Dwarf Exoplanet Surface Density Distribution: A Log-Normal Fit from 0.07-400 au | A&A 612 L3 |
| Zhu et al. (2018) | About 30% of Sun-like Stars Have Kepler-like Planetary Systems: A Study of their Intrinsic Architecture | ApJ 860 101 |
| Petigura et al. (2018) | The California-Kepler Survey. IV. Metal-rich Stars Host a Greater Diversity of Planets | AJ 155 89 |
| He, Triaud, & Guillon (2017) | First limits on the occurrence rate of short-period planets orbiting brown dwarfs | MNRAS 464 2687 |
| Fulton et al. (2017) | The California-Kepler Survey. III. A Gap in the Radius Distribution of Small Planets | AJ 154 109 |
| Meshkat et al. (2017) | A Direct Imaging Survey of Spitzer detected debris disks: Occurrence of giant planets in dusty systems | AJ 154 245 |
| Mróz et al. (2017) | No large population of unbound or wide-orbit Jupiter-mass planets | Nature 548 183 |
| Vigan et al. (2017) | The VLT/NaCo large program to probe the occurrence of exoplanets and brown dwarfs at wide orbits. IV. Gravitational instability rarely forms wide, giant planets | A&A 603A 3 |
| Suzuki, D. et al. (2016) | The Exoplanet Mass-ratio Function from the MOA-II Survey: Discovery of a Break and Likely Peak at a Neptune Mass | ApJ 833 145 |
| Wittenmyer et al. (2016) | The Anglo-Australian Planet Search XXIV: The Frequency of Jupiter Analogs | ApJ 819 28 |
| Gaidos et al. (2016) | They are small worlds after all: revised properties of Kepler M dwarf stars and their planets | MNRAS 457 2877 |
| Reggiani et al. (2016) | The VLT/NaCo large program to probe the occurrence of exoplanets and brown dwarfs at wide orbits. III. The frequency of brown dwarfs and giant planets as companions to solar-type stars | A&A 586 147 |
| Obermeier, C. et al. (2016) | Pan-Planets: Searching for hot Jupiters around cool dwarfs | A&A 587A 49O |
| Désert et al. (2016) | Low False Positive Rate of Kepler Candidates Estimated From A Combination Of Spitzer And Follow-Up Observations | ApJ 804 59 |
| Mulders et al. (2016) | A Super-Solar Metallicity For Stars With Hot Rocky Exoplanets | AJ 152 187 |
| Foreman-Mackey et al. (2016) | The population of long-period transiting exoplanets | AJ 152 206 |
| Lannier et al. (2016) | MASSIVE: A Bayesian analysis of giant planet populations around low-mass stars | A&A 596A 83 |
| Demory et al. (2016) | Probing TRAPPIST-1-like Systems with K2 | ApJ 825L 25 |
| Bonavita et al. (2016) | SPOTS: The Search for Planets Orbiting Two Stars. II. First constraints on the frequency of sub-stellar companions on wide circumbinary orbits | A&A 593A 38 |
| Adams, Jackson & Endl (2016) | Ultra-short-period Planets in K2 SuPerPiG Results for Campaigns 0-5 | AJ 152 47 |
| Bryan et al. (2016) | Statistics of Long Period Gas Giant Planets in Known Planetary Systems | ApJ 821 89 |
| Faria et al. (2016) | The HARPS search for southern extra-solar planets. XL. Searching for Neptunes around metal-poor stars | A&A 589A 25 |
| Jenkins et al. (2016) | New Planetary Systems from the Calan-Hertfordshire Extrasolar Planet Search and the Core Accretion Mass Limit | MNRAS 466 443 |
| Santerne et al. (2016) | SOPHIE velocimetry of Kepler transit candidates. XVII. The physical properties of giant exoplanets within 400 days of period | A&A 587A 64 |
| Dressing & Charbonneau (2015) | The Occurrence of Potentially Habitable Planets Orbiting M Dwarfs Estimated from the Full Kepler Dataset and an Empirical Measurement of the Detection Sensitivity | ApJ 807 45 |
| Deacon et al. (2015) | A Pan-STARRS1 study of the relationship between wide binarity and planet occurrence in the Kepler field | MNRAS (February 01, 2016) 455 (4): 4212-4230. |
| Reffert, S. et al. (2015) | Precise radial velocities of giant stars. VII. Occurrence rate of giant extrasolar planets as a function of mass and metallicity | A&A 574 116 |
| Burke et al. (2015) | Terrestrial Planet Occurrence Rates for the Kepler GK Dwarf Sample | ApJ 809 8 |
| Csizmadia et al. (2015) | Transiting exoplanets from the CoRoT space mission⋆. XXVIII. CoRoT-33b, an object in the brown dwarf desert with 2:3 commensurability with its host star | A&A 584A 13 |
| Mulders, Pascucci & Apai (2015) | A Stellar-Mass-Dependent Drop in Planet Occurrence Rates | ApJ 798 112 |
| Silburt, Gaidos & Wu (2015) | A Statistical Reconstruction of the Planet Population Around Kepler Solar-Type Stars | ApJ 799 180S |
| Martin & Triaud (2014) | Planets transiting non-eclipsing binaries | A&A 570A 91 |
| Foreman-Mackey, Hogg & Morton (2014) | Exoplanet Population Inference and the Abundance of Earth Analogs from Noisy, Incomplete Catalogs | ApJ 795 64 |
| Kane, Kopparapu & Domagal-Goldman (2014) | On the Frequency of Potential Venus Analogs from Kepler Data |
ApJ 794 5 |
| Batalha (2014) | Exploring Exoplanet Populations with NASA's Kepler Mission (REVIEW) | PNAS 111 35 |
| Morton & Swift (2014) | The Radius Distribution of Planets Around Cool Stars | ApJ 791 10 |
| Armstrong et al. (2014) | On the abundance of circumbinary planets | MNRAS 444 1873 |
| Bonfils et al. (2013) | The HARPS search for southern extra-solar planets. XXXI. The M-dwarf sample | A&A 549A 109 |
| Dong & Zhu (2013) | Fast Rise of "Neptune-size" Planets (4-8 R⊕) from P ~ 10 to ~250 DaysStatistics of Kepler Planet Candidates Up to 0.75 au | ApJ 778 53 |
| Petigura et al. (2013) | Prevalence of Earth-size Planets Orbiting Sun-like Stars | PNAS 110 19273 |
| Petigura, Howard & Marcy (2013) | A Plateau in the Planet Population Below Twice the Size of Earth | ApJ 770 69 |
| Gaidos (2013) | An Understanding of the Shoulder of Giants: Jovian Planets around Late K Dwarf Stars and the Trend with Stellar Mass | ApJ 771 18 |
| Gaidos (2013) | Candidate Planets in the Habitable Zones of Kepler Stars | ApJ 770 90 |
| Kopparapu (2013) | A Revised Estimate of the Occurrence Rate of Terrestrial Planets in the HZ around M-dwarfs | ApJ 767L 8 |
| Fressin et al. (2013) | The False Positive Rate of Kepler and the Occurrence of Planets | ApJ 766 81 |
| Dressing & Charbonneau (2013) | The Occurrence Rate of Small Planets around Small Stars | ApJ 767 95 |
| Swift et al. (2013) | Characterizing the Cool KOIs. IV. Kepler-32 as a Prototype for the Formation of Compact Planetary Systems Throughout the Galaxy | ApJ 764 105 |
| Beaugé & Nesvorny (2013) | Emerging Trends in a Period-Radius Distribution of Close-In Planets | ApJ 763 12 | Gaidos & Mann (2013) | Objects in Kepler's Mirror May be Larger than they Appear: Bias and Selection Effects in Transiting Planet Surveys | ApJ 762 41 |
| Moutou et al. (2013) | CoRoT: Harvest of the exoplanet program | Icar 226 1625 |
| Berta, Irwin & Charbonneau (2013) | Constraints on Planet Occurrence around Nearby Mid-to-late M Dwarfs from the MEARTH Project | ApJ 775 91B |
| Wright et al. (2012) | The Frequency of Hot Jupiters Orbiting nearby Solar-type Stars | ApJ 753 160 |
| Mann et al. (2012) | They Might be Giants: Luminosity Class, Planet Occurrence, and Planet-Metallicity Relation of the Coolest Kepler Target Stars | ApJ 753 90 |
| Traub (2012) | Terrestrial, Habitable-Zone Exoplanet Frequency from Kepler | ApJ 745 20 |
| Howard et al. (2012) | Planet Occurrence within 0.25 au of Solar-type Stars from Kepler | ApJS 201 15 |
| Bonomo et al. (2012) | Detection of Neptune-size planetary candidates with CoRoT data. Comparison with the planet occurrence rate derived from Kepler | A&A 547A 110 |
| Santerne et al. (2012) | SOPHIE velocimetry of Kepler transit candidates. VII. A false-positive rate of 35% for Kepler close-in giant candidates | A&A 545A 76S |
| Guenther et al. (2012) | Multi-object spectroscopy of stars in the CoRoT fields. II. The stellar population of the CoRoT fields IRa01, LRa01, LRa02, and LRa06 | A&A 543A 125 |
| Wittenmyer et al. (2011) | The Frequency of Low-mass Exoplanets. III. Toward η⊕ at Short Periods | ApJ 738 81 |
| Wittenmyer et al. (2011) | On the Frequency of Jupiter Analogs | ApJ 727 102 |
| Cassan et al. 2011 | One or more bound planets per Milky Way star from microlensing observations | |
| Youdin (2011) | The Exoplanet Census: A General Method Applied to Kepler | ApJ 742 38 |
| Borucki et al. (2011) | Characteristics of Planetary Candidates Observed by Kepler II. Analysis of the First Four Months of Data | ApJ 736 19 |
| Catanzarite & Shao (2011) | The Occurrence Rate of Earth Analog Planets Orbiting Sun-like Stars | ApJ 738 151 |
| Bayliss & Sackett (2011) | The Frequency of Hot Jupiters in the Galaxy: Results from the SuperLupus Survey | ApJ 743 103 |
| Wittenmyer et al. (2010) | The Frequency of Low-mass Exoplanets. II. The "Period Valley" | ApJ 722 1854 |
| Howard et al. (2010) | The Occurrence and Mass Distribution of Close-in Super-Earths, Neptunes, and Jupiters | Sci 330 653 |
| O'Toole et al. (2009) | The Frequency of Low-Mass Exoplanets | ApJ 701 1732 |
| Cumming et al. (2008) | The Keck Planet Search: Detectability and the Minimum Mass and Orbital Period Distribution of Extrasolar Planets | PASP 120 531 |
| Gould et al. (2006) | Frequency of Hot Jupiters and Very Hot Jupiters from the OGLE-III Transit Surveys toward the Galactic Bulge and Carina | AcA 56 1 |
| Marcy et al. (2005) | Observed Properties of Exoplanets: Masses, Orbits, and Metallicities | PThPS 158 24 |
Last updated: 18 November 2024