Variability in the super-Earth 55 Cnc e

Demory, Brice-Olivier; Gillon, M.; Madhusudhan, Nikku; Queloz, D.

doi:10.1093/mnras/stv2239

Cited by 152 publications

(166 citation statements)

References 68 publications

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“…In February 2015, we requested 9.5 hr of Director's Discretionary Time (DDT) on the Spitzer Space Telescope to continuously monitor the 2σ transit window of the planet as derived from our analysis of the HARPS-N RVs. As demonstrated by the codetection and subsequent studies of the transits and occultations of 55 Cnc e (Demory et al 2011(Demory et al , 2015bGillon et al 2012) and the confirmation of the transiting nature of HD 97658 b (Van Grootel et al 2014), Spitzer is indeed a very powerful facility to search for and measure with high precision the transits of low-mass RV planets thanks to its trailing orbit that allows it to monitor the same star continuously for a complete transit window, and to its ultra-high photometric precision (a few dozens of ppm per time interval of 30 min for 55 Cnc). Our programme was approved by the Spitzer Science Center (SSC) Director under the ID 11180 (PI: M. Gillon), and the SSC managed to schedule it for 14 April 2015, a few days before the end of the current visibility window of the star.…”

Section: Spitzer Observationsmentioning

confidence: 86%

The HARPS-N Rocky Planet Search

Motalebi

Udry

Gillon

et al. 2015

A&A

125

101

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We know now from radial velocity surveys and transit space missions that planets only a few times more massive than our Earth are frequent around solar-type stars. Fundamental questions about their formation history, physical properties, internal structure, and atmosphere composition are, however, still to be solved. We present here the detection of a system of four low-mass planets around the bright (V = 5.5) and close-by (6.5 pc) star HD 219134. This is the first result of the Rocky Planet Search programme with HARPS-N on the Telescopio Nazionale Galileo in La Palma. The inner planet orbits the star in 3.0935 ± 0.0003 days, on a quasicircular orbit with a semi-major axis of 0.0382 ± 0.0003 AU. Spitzer observations allowed us to detect the transit of the planet in front of the star making HD 219134 b the nearest known transiting planet to date. From the amplitude of the radial velocity variation (2.25 ± 0.22 ms −1 ) and observed depth of the transit (359 ± 38 ppm), the planet mass and radius are estimated to be 4.36 ± 0.44 M ⊕ and 1.606 ± 0.086 R ⊕ , leading to a mean density of 5.76 ± 1.09 g cm −3 , suggesting a rocky composition. One additional planet with minimum-mass of 2.78 ± 0.65 M ⊕ moves on a close-in, quasi-circular orbit with a period of 6.767 ± 0.004 days. The third planet in the system has a period of 46.66 ± 0.08 days and a minimum-mass of 8.94 ± 1.13 M ⊕ , at 0.233 ± 0.002 AU from the star. Its eccentricity is 0.46 ± 0.11. The period of this planet is close to the rotational period of the star estimated from variations of activity indicators (42.3 ± 0.1 days). The planetary origin of the signal is, however, the preferred solution as no indication of variation at the corresponding frequency is observed for activity-sensitive parameters. Finally, a fourth additional longer-period planet of mass of 71 M ⊕ orbits the star in 1842 days, on an eccentric orbit (e = 0.34 ± 0.17) at a distance of 2.56 AU.Key words. techniques: radial velocities -techniques: photometric -stars: individual: HD 219134 -binaries: eclipsinginstrumentation: spectrographsThe photometric time series and radial velocities used in this work are available in electronic form at the CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via

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Section: Spitzer Observationsmentioning

confidence: 86%

The HARPS-N Rocky Planet Search

Motalebi

Udry

Gillon

et al. 2015

A&A

125

101

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“…As we can see, the two models can be better distinguished at longer wavelengths. The average transit depth of 55 Cancri e at 4.5 mu obtained with Spitzer Space Telescope (Demory et al 2016) is also shown in light blue.…”

Section: Hcn As a Tracer Of High C/o Ratio Atmospheresmentioning

confidence: 90%

“…The eclipse depth of 131±28 ppm observed by Demory et al (2012) with Spitzer/IRAC at 4.5 μm converts to a brightness temperature of 2360±300 K. Also, repeated eclipse observations suggested a variability of the thermal emission from the dayside of the planet over time (Demory et al 2016). Table 1 summarizes the most recent parameters for 55 Cancri e. Given these parameters, Zeng & Sasselov (2014) have modeled the plausible structure of the interior and Hu & Seager (2014) have modeled the possible atmospheric compositions.…”

Section: Introductionmentioning

confidence: 99%

Detection of an Atmosphere Around the Super-Earth 55 Cancri E

Tsiaras

Rocchetto

Waldmann

et al. 2016

ApJ

247

238

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We report the analysis of two new spectroscopic observations in the near-infrared of the super-Earth 55 Cancri e, obtained with the WFC3 camera on board the Hubble Space Telescope. 55 Cancri e orbits so close to its parent star that temperatures much higher than 2000 K are expected on its surface. Given the brightness of 55 Cancri, the observations were obtained in scanning mode, adopting a very long scanning length and a very high scanning speed. We use our specialized pipeline to take into account systematics introduced by these observational parameters when coupled with the geometrical distortions of the instrument. We measure the transit depth per wavelength channel with an average relative uncertainty of 22 ppm per visit and find modulations that depart from a straight line model with a 6σ confidence level. These results suggest that 55 Cancri e is surrounded by an atmosphere, which is probably hydrogen-rich. Our fully Bayesian spectral retrieval code,  -REx, has identified HCN to be the most likely molecular candidate able to explain the features at 1.42 and 1.54 μm. While additional spectroscopic observations in a broader wavelength range in the infrared will be needed to confirm the HCN detection, we discuss here the implications of such a result. Our chemical model, developed with combustion specialists, indicates that relatively high mixing ratios of HCN may be caused by a high C/O ratio. This result suggests this super-Earth is a carbon-rich environment even more exotic than previously thought.

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“…However, follow-up secondary eclipse, phase-curve, and transit measurements (Demory et al , 2016a(Demory et al , 2016bRidden-Harper et al 2016;Tsiaras et al 2016), in conjunction with theoretical models (Lammer et al 2013;Ito et al 2015;Kite et al 2016), point to the existence of an envelope.…”

Section: Cncementioning

confidence: 99%

A Search for Water in a Super-Earth Atmosphere: High-resolution Optical Spectroscopy of 55Cancri e

Esteves

Mooij

Jayawardhana

et al. 2017

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We present the analysis of high-resolution optical spectra of four transits of 55Cnce, a low-density super-Earth that orbits a nearby Sun-like star in under 18 hr. The inferred bulk density of the planet implies a substantial envelope, which, according to mass-radius relationships, could be either a low-mass extended or a high-mass compact atmosphere. Our observations investigate the latter scenario, with water as the dominant species. We take advantage of the Doppler cross-correlation technique, high-spectral resolution, and the large wavelength coverage of our observations to search for the signature of thousands of optical water absorption lines. Using our observations with HDS on the Subaru telescope and ESPaDOnS on the Canada-France-Hawaii Telescope, we are able to place a 3σ lower limit of 10 g mol −1 on the mean-molecular weight of 55Cnce's water-rich (volume mixing ratio >10%), optically thin atmosphere, which corresponds to an atmospheric scale-height of ∼80 km. Our study marks the first high-spectral resolution search for water in a super-Earth atmosphere, and demonstrates that it is possible to recover known water-vapor absorption signals in a nearby super-Earth atmosphere, using highresolution transit spectroscopy with current ground-based instruments.

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Variability in the super-Earth 55 Cnc e

Cited by 152 publications

References 68 publications

The HARPS-N Rocky Planet Search

The HARPS-N Rocky Planet Search

Detection of an Atmosphere Around the Super-Earth 55 Cancri E

A Search for Water in a Super-Earth Atmosphere: High-resolution Optical Spectroscopy of 55Cancri e

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