Context. The two main advantages of exoplanet imaging are the discovery of objects in the outer part of stellar systems, which constrains the models of planet formation, and its ability to spectrally characterize the planets to study their atmospheres. It is, however, challenging because exoplanets are up to 1010 times fainter than their stars and are separated by a fraction of an arcsecond. Current instruments like SPHERE-VLT or GPI-Gemini detect young and massive planets only because of non-common path aberrations (NCPA) that are not corrected by the adaptive optics system. To probe fainter exoplanets a new instruments capable of minimizing the NCPA is needed. One solution is the self-coherent camera (SCC) focal plane wavefront sensor whi...
Direct imaging and low-resolution spectroscopy of extrasolar planets are exciting but challenging sc...
International audienceExtreme adaptive optics and coronagraphy are mandatory for direct imaging of e...
Direct imaging and low-resolution spectroscopy of extrasolar planets are exciting but challenging sc...
International audienceContext. The two main advantages of exoplanet imaging are the discovery of obj...
International audienceDetecting light from faint companions or protoplanetary disks lying close to t...
Direct imaging of exoplanets requires high dynamical techniques as adaptive optics and coronagraphy ...
Context. Spectroscopy of exoplanets is very challenging because of the high star-planet contrast. A ...
International audienceContext. Direct detection of exoplanets requires high dynamic range imaging. C...
International audienceDirect imaging of exoplanets requires the detection of very faint objects orbi...
International audienceDirect detection is a very promising field in exoplanet science. It allows the...
Direct imaging is a powerful tool for exoplanet atmosphere characterization. High performance of the...
Context. The detection and characterization of Earth-like exoplanets is one of the major science dri...
Direct imaging and low-resolution spectroscopy of extrasolar planets are exciting but challenging sc...
Direct imaging and low-resolution spectroscopy of extrasolar planets are exciting but challenging sc...
International audienceExtreme adaptive optics and coronagraphy are mandatory for direct imaging of e...
Direct imaging and low-resolution spectroscopy of extrasolar planets are exciting but challenging sc...
International audienceContext. The two main advantages of exoplanet imaging are the discovery of obj...
International audienceDetecting light from faint companions or protoplanetary disks lying close to t...
Direct imaging of exoplanets requires high dynamical techniques as adaptive optics and coronagraphy ...
Context. Spectroscopy of exoplanets is very challenging because of the high star-planet contrast. A ...
International audienceContext. Direct detection of exoplanets requires high dynamic range imaging. C...
International audienceDirect imaging of exoplanets requires the detection of very faint objects orbi...
International audienceDirect detection is a very promising field in exoplanet science. It allows the...
Direct imaging is a powerful tool for exoplanet atmosphere characterization. High performance of the...
Context. The detection and characterization of Earth-like exoplanets is one of the major science dri...
Direct imaging and low-resolution spectroscopy of extrasolar planets are exciting but challenging sc...
Direct imaging and low-resolution spectroscopy of extrasolar planets are exciting but challenging sc...
International audienceExtreme adaptive optics and coronagraphy are mandatory for direct imaging of e...
Direct imaging and low-resolution spectroscopy of extrasolar planets are exciting but challenging sc...