The delivered image quality of ground-based telescopes depends greatly on atmospheric turbulence. At every observatory, the majority of the turbulence (up to 60-80 % of the total) occurs in the ground layer of the at-mosphere, that is, the first few hundred meters above the telescope pupil. Correction of these perturbations can, therefore, greatly increase the quality of the image. We use Ground-layer Wavefront Sensors (GWSs) to sense the ground layer turbulence for the LINC-NIRVANA (LN) instrument, which is in its final integration phase before shipment to the Large Binocular Telescope (LBT) on Mt.Graham in Arizona.19 LN is an infrared Fizeau interferometer, equipped with an advanced Multi-Conjugate Adaptive Optics (MCAO) module, capable o...
In the field of adaptive optics, multi-conjugate adaptive optics (MCAO) can greatly increase the siz...
LINC-NIRVANA is an innovative imaging interferometer fed by dedicated multi-conjugated adaptive opti...
Turbulence in Earth's atmosphere severely limits the achievable image quality of ground-based optica...
LINC-NIRVANA (LN) is an instrument built to be a Fizeau interferometric imager for the Large Binocul...
The LINC-NIRVANA wavefront sensors are in their AIT phase. The first Ground-layerWavefront Sensor (G...
LINC-NIRVANA is an infrared camera that will work in Fizeau interferometric way at the Large Binocul...
LINC-NIRVANA is an infrared camera that will work in Fizeau interferometric way at the Large Binocul...
The Mid-High Wavefront Sensors (MHWS) are components of the adaptive optics system of LINC-NIRVANA, ...
LINC-NIRVANA (LN) is a MCAO module currently mounted on the Rear Bent Gregorian focus of the Large B...
In the last 50 years the apertures of the world largest ground-based telescopes doubled, passing fro...
LINC-NIRVANA is an infrared camera working in Fizeau interferometric mode. The beams coming from the...
Turbulence in Earth's atmosphere severely limits the image quality of ground-based telescopes. With ...
LINC-NIRVANA is the near-infrared interferometric imaging camera for the Large Binocular Telescope. ...
The LBT (Large Binocular Telescope), located at about 3200m on Mount Graham (Tucson, Arizona) is an ...
Observational tests of ground layer wavefront recovery have been made in open loop using a constella...
In the field of adaptive optics, multi-conjugate adaptive optics (MCAO) can greatly increase the siz...
LINC-NIRVANA is an innovative imaging interferometer fed by dedicated multi-conjugated adaptive opti...
Turbulence in Earth's atmosphere severely limits the achievable image quality of ground-based optica...
LINC-NIRVANA (LN) is an instrument built to be a Fizeau interferometric imager for the Large Binocul...
The LINC-NIRVANA wavefront sensors are in their AIT phase. The first Ground-layerWavefront Sensor (G...
LINC-NIRVANA is an infrared camera that will work in Fizeau interferometric way at the Large Binocul...
LINC-NIRVANA is an infrared camera that will work in Fizeau interferometric way at the Large Binocul...
The Mid-High Wavefront Sensors (MHWS) are components of the adaptive optics system of LINC-NIRVANA, ...
LINC-NIRVANA (LN) is a MCAO module currently mounted on the Rear Bent Gregorian focus of the Large B...
In the last 50 years the apertures of the world largest ground-based telescopes doubled, passing fro...
LINC-NIRVANA is an infrared camera working in Fizeau interferometric mode. The beams coming from the...
Turbulence in Earth's atmosphere severely limits the image quality of ground-based telescopes. With ...
LINC-NIRVANA is the near-infrared interferometric imaging camera for the Large Binocular Telescope. ...
The LBT (Large Binocular Telescope), located at about 3200m on Mount Graham (Tucson, Arizona) is an ...
Observational tests of ground layer wavefront recovery have been made in open loop using a constella...
In the field of adaptive optics, multi-conjugate adaptive optics (MCAO) can greatly increase the siz...
LINC-NIRVANA is an innovative imaging interferometer fed by dedicated multi-conjugated adaptive opti...
Turbulence in Earth's atmosphere severely limits the achievable image quality of ground-based optica...