We study the statistical characteristics of a box-fitting algorithm to analyze stellar photometric time series in the search for periodic transits by extrasolar planets. The algorithm searches for signals characterized by a periodic alternation between two discrete levels, with much less time spent at the lower level. We present numerical as well as analytical results to predict the possible detection significance at various signal parameters. It is shown that the crucial parameter is the effective signal-to-noise ratio – the expected depth of the transit divided by the standard deviation of the measured photometric average within the transit. When this parameter exceeds the value of 6 we can expect a significant detection of the transi...
International audienceBecause photometric surveys of exoplanet transits are very promising sources o...
A comparison between prominent periodicity detection algorithms in terms of transit curves to determ...
The detection of planetary transits in stellar photometric light-curves is poised to become the main...
We study the statistical characteristics of a box-fitting algorithm to analyze stellar photometric t...
A new algorithm is proposed for the systematic analysis of light curves produced in high accuracy ph...
Aims. As an extension of a previous work, we present a comparison of four methods of filtering solar...
The detection of planetary transits in stellar photometric light-curves is poised to become the main...
Aims. As an extension of a previous work, we present a comparison of four methods of filtering solar...
Context. The pioneer space mission for photometric exoplanet searches, CoRoT, steadily monitors abou...
(Abridged) Space missions to search for exo-planets via the transit method, such as COROT, Eddington...
By using subsets of the HATNet and K2 (Kepler two-wheel) Campaign 1 databases, we examine the effect...
We present a new method to detect planetary transits from time-series photometry, the transit least ...
The detection of planetary transits in stellar photometric light-curves is poised to become the mai...
Aims. The standard method of searching parameter space for transits is ill-suited to data sets with ...
International audienceBecause photometric surveys of exoplanet transits are very promising sources o...
A comparison between prominent periodicity detection algorithms in terms of transit curves to determ...
The detection of planetary transits in stellar photometric light-curves is poised to become the main...
We study the statistical characteristics of a box-fitting algorithm to analyze stellar photometric t...
A new algorithm is proposed for the systematic analysis of light curves produced in high accuracy ph...
Aims. As an extension of a previous work, we present a comparison of four methods of filtering solar...
The detection of planetary transits in stellar photometric light-curves is poised to become the main...
Aims. As an extension of a previous work, we present a comparison of four methods of filtering solar...
Context. The pioneer space mission for photometric exoplanet searches, CoRoT, steadily monitors abou...
(Abridged) Space missions to search for exo-planets via the transit method, such as COROT, Eddington...
By using subsets of the HATNet and K2 (Kepler two-wheel) Campaign 1 databases, we examine the effect...
We present a new method to detect planetary transits from time-series photometry, the transit least ...
The detection of planetary transits in stellar photometric light-curves is poised to become the mai...
Aims. The standard method of searching parameter space for transits is ill-suited to data sets with ...
International audienceBecause photometric surveys of exoplanet transits are very promising sources o...
A comparison between prominent periodicity detection algorithms in terms of transit curves to determ...
The detection of planetary transits in stellar photometric light-curves is poised to become the main...