Add to ORKGAbstract. High performance coronagraphic imaging at small inner working angle requires efficient control of low order aberrations. The absence of accurate pointing control at small separation not only degrades coronagraph starlight rejection but also increases the risk of confusing planet’s photons with starlight leaking next to the coronagraph focal plane mask center. Addressing this issue is essential for preventing coronagraphic leaks, and we have thus developed a new concept, the Lyot-based pointing control system (LPCS), to control pointing errors and other low order aberrations within a coronagraph. The LPCS uses residual starlight reflected by the Lyot stop at the pupil plane. Our simulation has demon-strated pointing errors measurem...
Context. Phase-mask coronagraphs can be seen as linear systems that spatially redistribute...
Context. A vortex coronagraph is now available for high contrast observations with the Keck/NIRC2 in...
Context. Phase-mask coronagraphy is advantageous in terms of inner working angle and discovery space...
High performance coronagraphic imaging of faint structures around bright stars at small angular sepa...
High throughput, low inner working angle (IWA) phase masks coronagraphs are essential to directly im...
International audienceHigh throughput, low inner working angle (IWA) phase masks coronagraphs are es...
Detecting faint companions in close proximity to stars is one of the major goals of current/planned ...
We study the way Lyot coronagraphs with unapodized entrance pupils respond to small, low order phase...
A dual coronagraph based on the Adaptive Mask concept is presented in this paper. A Lyot coronagraph...
Context. Direct imaging of exoplanets located a few AU from their hosting star requires an...
Small inner working angle coronagraphs, like the vortex phase mask, are essential to exploit the ful...
Adaptive Optics can yield to sharp PSFs in which the light distribution from the center of the PSF t...
Context. Small inner working angle coronagraphs, such as the vortex phase mask, are essential to exp...
We have built a series of notch filter image masks that make the Lyot coronagraph less susceptible t...
Context. A vortex coronagraph is now available for high contrast observations with the Keck/NIRC2 in...
Context. Phase-mask coronagraphs can be seen as linear systems that spatially redistribute...
Context. A vortex coronagraph is now available for high contrast observations with the Keck/NIRC2 in...
Context. Phase-mask coronagraphy is advantageous in terms of inner working angle and discovery space...
High performance coronagraphic imaging of faint structures around bright stars at small angular sepa...
High throughput, low inner working angle (IWA) phase masks coronagraphs are essential to directly im...
International audienceHigh throughput, low inner working angle (IWA) phase masks coronagraphs are es...
Detecting faint companions in close proximity to stars is one of the major goals of current/planned ...
We study the way Lyot coronagraphs with unapodized entrance pupils respond to small, low order phase...
A dual coronagraph based on the Adaptive Mask concept is presented in this paper. A Lyot coronagraph...
Context. Direct imaging of exoplanets located a few AU from their hosting star requires an...
Small inner working angle coronagraphs, like the vortex phase mask, are essential to exploit the ful...
Adaptive Optics can yield to sharp PSFs in which the light distribution from the center of the PSF t...
Context. Small inner working angle coronagraphs, such as the vortex phase mask, are essential to exp...
We have built a series of notch filter image masks that make the Lyot coronagraph less susceptible t...
Context. A vortex coronagraph is now available for high contrast observations with the Keck/NIRC2 in...
Context. Phase-mask coronagraphs can be seen as linear systems that spatially redistribute...
Context. A vortex coronagraph is now available for high contrast observations with the Keck/NIRC2 in...
Context. Phase-mask coronagraphy is advantageous in terms of inner working angle and discovery space...