Despite recent advances in high-contrast imaging techniques, high resolution spectroscopy for characterization of exoplanet atmospheres is still limited by our ability to suppress residual starlight speckles at the planet’s location. We have demonstrated a new concept for speckle nulling by injecting directly imaged planet light into a single-mode fiber, linking a high-contrast adaptively-corrected coronagraph to a high-resolution spectrograph (diffraction-limited or not). The restrictions on the incident electric field that will couple into the single-mode fiber give the adaptive optics system additional degrees of freedom to suppress the speckle noise on top of destructive interference. We are able to achieve a starlight suppression gains...
Coupling a high-contrast imaging instrument to a high-resolution spectrograph has the potential to e...
Coronagraphs allow for faint off-axis exoplanets to be observed, but are limited to angular separati...
he small angular distance (<100 mas) and the huge flux ratio (107) between an Earth-like exoplanet i...
Despite recent advances in high-contrast imaging techniques, high resolution spectroscopy for charac...
High-dispersion coronagraphy (HDC) combines high contrast imaging techniques with high spectral reso...
High dispersion coronagraphy (HDC) is a technique that combines high contrast imaging techniques wit...
High-dispersion coronagraphy (HDC) optimally combines high contrast imaging techniques such as adapt...
Direct imaging of exoplanets is vital for understanding star system formation and the evolutionary b...
Vortex Fiber Nulling (VFN) is an interferometric method for suppressing starlight to detect and spec...
The Keck Planet Imager and Characterizer (KPIC) is an upgrade to the Keck II adaptive optics system ...
Coupling a high-contrast imaging instrument to a high-resolution spectrograph has the potential to e...
Vortex fiber nulling is a method for spectroscopically characterizing exoplanets at small angular se...
Direct imaging of exoplanets has become a priority in the field of exoplanet discovery and character...
Instrumentation designed to characterize potentially habitable planets may combine adaptive optics a...
A fiber injection unit situated in the focal plane behind a coronagraph feeding a high resolution sp...
Coupling a high-contrast imaging instrument to a high-resolution spectrograph has the potential to e...
Coronagraphs allow for faint off-axis exoplanets to be observed, but are limited to angular separati...
he small angular distance (<100 mas) and the huge flux ratio (107) between an Earth-like exoplanet i...
Despite recent advances in high-contrast imaging techniques, high resolution spectroscopy for charac...
High-dispersion coronagraphy (HDC) combines high contrast imaging techniques with high spectral reso...
High dispersion coronagraphy (HDC) is a technique that combines high contrast imaging techniques wit...
High-dispersion coronagraphy (HDC) optimally combines high contrast imaging techniques such as adapt...
Direct imaging of exoplanets is vital for understanding star system formation and the evolutionary b...
Vortex Fiber Nulling (VFN) is an interferometric method for suppressing starlight to detect and spec...
The Keck Planet Imager and Characterizer (KPIC) is an upgrade to the Keck II adaptive optics system ...
Coupling a high-contrast imaging instrument to a high-resolution spectrograph has the potential to e...
Vortex fiber nulling is a method for spectroscopically characterizing exoplanets at small angular se...
Direct imaging of exoplanets has become a priority in the field of exoplanet discovery and character...
Instrumentation designed to characterize potentially habitable planets may combine adaptive optics a...
A fiber injection unit situated in the focal plane behind a coronagraph feeding a high resolution sp...
Coupling a high-contrast imaging instrument to a high-resolution spectrograph has the potential to e...
Coronagraphs allow for faint off-axis exoplanets to be observed, but are limited to angular separati...
he small angular distance (<100 mas) and the huge flux ratio (107) between an Earth-like exoplanet i...