Add to ORKGIn this thesis, the effect of scintillation arising from atmospheric optical turbulence on exoplanet transit and secondary eclipse photometry is examined. Atmospheric scintillation arises from the propagation of phase aberrations resulting from wavefront perturbations due to optical turbulence high in the atmosphere. Scintillation causes intensity variations of astronomical targets, which is a problem in exoplanet transit photometry, where the measurement of a decrease in brightness of 1% or less is required. For this reason, ground-based telescopes have inferior photometric precision compared to their space-based counterparts, despite having the advantage of a reduced cost. In contrast with previous work on the detection limits of fas...
Atmospheric turbulence has two effects in astronomy; (i) the broadening of the point spread function...
Atmospheric turbulence has two effects in astronomy; (i) the broadening of the point spread function...
Stereo-SCIDAR (SCIntillation Detection and Ranging) is a development to the well known SCIDAR method...
Atmospheric scintillation caused by optical turbulence in the Earth’s atmosphere can be the dominant...
Transit photometry is a powerful technique for studying exoplanets. Transit observations from the gr...
Scintillation noise due to the Earth's turbulent atmosphere can be a dominant noise source in high-p...
Scintillation noise due to the Earth's turbulent atmosphere can be a dominant noise source in high-p...
High-precision fast photometry from ground-based observatories is a challenge due to intensity fluct...
The turbulent atmosphere has two detrimental effects in astronomy. The phase aberration induced by ...
Ground-based photometry of bright stars is expected to be limited by atmospheric scintillation, alth...
We describe a new concept to correct for scintillation noise on high-precision photometry in large a...
Aims. Scintillation noise is a major limitation of ground-based photometric precision. Methods. A...
Fresnel propagation of starlight after it passes through high altitude turbulence in the Earth’s atm...
High-precision fast photometry from ground-based observatories is a challenge due to intensity fluct...
Ground-based photometry of bright stars is expected to be limited by atmospheric scintillation, alth...
Atmospheric turbulence has two effects in astronomy; (i) the broadening of the point spread function...
Atmospheric turbulence has two effects in astronomy; (i) the broadening of the point spread function...
Stereo-SCIDAR (SCIntillation Detection and Ranging) is a development to the well known SCIDAR method...
Atmospheric scintillation caused by optical turbulence in the Earth’s atmosphere can be the dominant...
Transit photometry is a powerful technique for studying exoplanets. Transit observations from the gr...
Scintillation noise due to the Earth's turbulent atmosphere can be a dominant noise source in high-p...
Scintillation noise due to the Earth's turbulent atmosphere can be a dominant noise source in high-p...
High-precision fast photometry from ground-based observatories is a challenge due to intensity fluct...
The turbulent atmosphere has two detrimental effects in astronomy. The phase aberration induced by ...
Ground-based photometry of bright stars is expected to be limited by atmospheric scintillation, alth...
We describe a new concept to correct for scintillation noise on high-precision photometry in large a...
Aims. Scintillation noise is a major limitation of ground-based photometric precision. Methods. A...
Fresnel propagation of starlight after it passes through high altitude turbulence in the Earth’s atm...
High-precision fast photometry from ground-based observatories is a challenge due to intensity fluct...
Ground-based photometry of bright stars is expected to be limited by atmospheric scintillation, alth...
Atmospheric turbulence has two effects in astronomy; (i) the broadening of the point spread function...
Atmospheric turbulence has two effects in astronomy; (i) the broadening of the point spread function...
Stereo-SCIDAR (SCIntillation Detection and Ranging) is a development to the well known SCIDAR method...