Detection of a transit of the super-Earth 55 Cnc e with Warm Spitzer

B. Benneke; B.-O. Demory; Bakos; Ballard; Barge; Batalha; Bean; Borucki; Borucki; Borucki; Bruntt; C. Lovis; Carter; Charbonneau; Claret; D. Deming; D. Queloz; D. Ségransan; D. Valencia; Dawson; Désert; Désert; F. Pepe; Fazio; Fischer; Fischer; Flower; Gillon; Gillon; Gillon; Hartman; Hatzes; J. Harrington; K. B. Stevenson; Knutson; Lissauer; Lovis; Léger; M. Gillon; M. Mayor; Mandel; Marcus; Mayor; McArthur; Meschiari; Naef; P. Cubillos; Rafikov; Ricker; Rogers; S. Seager; S. Udry; Seager; Shabram; Skrutskie; Stetson; Sumi; Torres; Turon; Valencia; van Belle; Van Leeuwen; Winn

research

Detection of a transit of the super-Earth 55 Cnc e with Warm Spitzer

Authors: B. Benneke
B.-O. Demory
Bakos
Ballard
Barge
Batalha
Bean
Borucki
Borucki
Borucki
Bruntt
C. Lovis
Carter
Charbonneau
Claret
D. Deming
D. Queloz
D. Ségransan
D. Valencia
Dawson
Désert
Désert
F. Pepe
Fazio
Fischer
Fischer
Flower
Gillon
Gillon
Gillon
Hartman
Hatzes
J. Harrington
K. B. Stevenson
Knutson
Lissauer
Lovis
Léger
M. Gillon
M. Mayor
Mandel
Marcus
Mayor
McArthur
Meschiari
Naef
P. Cubillos
Rafikov
Ricker
Rogers
S. Seager
S. Udry
Seager
Shabram
Skrutskie
Stetson
Sumi
Torres
Turon
Valencia
van Belle
Van Leeuwen
Winn
Publication date: 1 January 2011
Publisher: 'EDP Sciences'
Doi

Abstract

We report on the detection of a transit of the super-Earth 55 Cnc e with warm Spitzer in IRAC's 4.5-micron band. Our MCMC analysis includes an extensive modeling of the systematic effects affecting warm Spitzer photometry, and yields a transit depth of 410 +- 63 ppm, which translates to a planetary radius of 2.08 +- 0.16 R_Earth as measured in IRAC 4.5-micron channel. A planetary mass of 7.81 +- 0.58 M_Earth is derived from an extensive set of radial-velocity data, yielding a mean planetary density of 4.8 +- 1.3 g cm-3. Thanks to the brightness of its host star (V = 6, K = 4), 55 Cnc e is a unique target for the thorough characterization of a super-Earth orbiting around a solar-type star.Comment: Accepted for publication in A&A on 31 July 2011. 9 pages, 7 figures and 3 tables. Minor changes. The revised version includes a baseline models comparison and a new figure presenting the spatially- and time-dependent terms of the model function used in Eq.