For the detection and characterization of exoplanets, observed spectra need to be understood at extremely high detail. Knowledge about the radiation emitted from the host star is of utmost importance, and the Sun is the best available laboratory to understand Sun-like stars. At the Institute for Astrophysics Göttingen, we observe the Sun using a high resolution Fourier Transform Spectrograph (FTS). Our observations of the resolved Sun provide insight into the variable spectral behaviour across different limb angles, which can provide crucial information about limb darkening, convective velocities, and line profile variability relevant for radial velocity (RV) work. We show first results from our atlas of the solar spectrum at different limb...
International audienceThe Sun is the only star whose surface can be directly resolved at high resolu...
We present an analysis of Sun-as-a-star observations from four different high-resolution, stabilized...
Transmission spectroscopy, a method for studying exoplanetary atmospheres by measuring the wavelengt...
Spectral-line displacements away from the wavelengths naively expected from the Doppler shift caused...
The radial-velocity method is a plausible tool toward ground-based detection of Earth-like planets a...
The radial-velocity method is a plausible tool toward detection of Earth-like planets around solar-t...
Context. High-precision stellar analyses require hydrodynamic modeling to interpret chemical abundan...
Context. High-precision stellar analyses require hydrodynamic 3D modeling. Testing such models is fe...
Observations of stellar surfaces ndash; except for the Sun ndash; are hampered by their tiny angular...
Since we can resolve the surface of the Sun directly, we can explore the origin of radial-velocity v...
Since we can resolve the surface of the Sun directly, we can explore the origin of radial-velocity v...
Context. High-resolution spectroscopy across spatially resolved stellar surfaces aims at obtaining s...
The Sun’s spectrum varies with center-to-limb distance, which is usually parameterized by μ = cosθ, ...
Context. To enable radial velocity (RV) precision on the order of ~0.1 m s−1 required for the detect...
Abstract. Differential spectroscopy during exoplanet transits permits to reconstruct spectra of smal...
International audienceThe Sun is the only star whose surface can be directly resolved at high resolu...
We present an analysis of Sun-as-a-star observations from four different high-resolution, stabilized...
Transmission spectroscopy, a method for studying exoplanetary atmospheres by measuring the wavelengt...
Spectral-line displacements away from the wavelengths naively expected from the Doppler shift caused...
The radial-velocity method is a plausible tool toward ground-based detection of Earth-like planets a...
The radial-velocity method is a plausible tool toward detection of Earth-like planets around solar-t...
Context. High-precision stellar analyses require hydrodynamic modeling to interpret chemical abundan...
Context. High-precision stellar analyses require hydrodynamic 3D modeling. Testing such models is fe...
Observations of stellar surfaces ndash; except for the Sun ndash; are hampered by their tiny angular...
Since we can resolve the surface of the Sun directly, we can explore the origin of radial-velocity v...
Since we can resolve the surface of the Sun directly, we can explore the origin of radial-velocity v...
Context. High-resolution spectroscopy across spatially resolved stellar surfaces aims at obtaining s...
The Sun’s spectrum varies with center-to-limb distance, which is usually parameterized by μ = cosθ, ...
Context. To enable radial velocity (RV) precision on the order of ~0.1 m s−1 required for the detect...
Abstract. Differential spectroscopy during exoplanet transits permits to reconstruct spectra of smal...
International audienceThe Sun is the only star whose surface can be directly resolved at high resolu...
We present an analysis of Sun-as-a-star observations from four different high-resolution, stabilized...
Transmission spectroscopy, a method for studying exoplanetary atmospheres by measuring the wavelengt...