Context. The diffusion of adaptive optics systems in astronomical instrumentation for large ground based telescopes is rapidly increasing and the pyramid wavefront sensor is replacing the Shack-Hartmann as standard solution for single conjugate adaptive optics systems. The pyramid wavefront sensor is typically used with a tip/tilt modulation to increase the linearity range of the sensor, but the non-modulated case is interesting because it maximizes the sensor sensitivity. The latter case is generally avoided for the reduced linearity range that prevents robust operation in the presence of atmospheric turbulence. Aims. We aim to solve part of the issues of the non-modulated pyramid wavefront sensor by reducing the model error in the inter...
The Giant Segmented Mirror Telescopes (GSMTs) including the Giant Magellan Telescope (GMT), the Thir...
Imaging astronomical objects, such as stars, planets and galaxies, with ground-based telescopes, is ...
International audienceContext. The pyramid was proven to be a highly sensitive and versatile wave-fr...
Context. The diffusion of adaptive optics systems in astronomical instrumentation for large ground-b...
The next generation of giant ground and space telescopes will have the light-collecting power to det...
International audienceExtremely Large Telescopes are making Pyramid Wavefront Sensors (PWFS) the pre...
The pyramid wavefront sensor (PWFS) is the currently preferred design for high-sensitivity adaptive ...
International audienceExtreme adaptive optics (AO) is crucial for enabling the contrasts needed for ...
Context. Extremely large telescopes are overwhelmingly equipped with pyramid wavefront sensors (PyWF...
In this letter we evaluate the limiting magnitude for a Pyramid Sensor operating in a closed loop a...
The pyramid wave-front sensor in its original form works with a mechanical modulation that adapts th...
The Giant Segmented Mirror Telescopes (GSMTs) including the Giant Magellan Telescope (GMT), the Thir...
The pyramid sensor (PS) is an interesting alternative to the Shack-Hartmann wavefront sensor (SH WFS...
Known exoplanets are 10 thousand to 10 billion times fainter than their host stars.These high contra...
The Giant Segmented Mirror Telescopes (GSMTs) including the Giant Magellan Telescope (GMT), the Thir...
Imaging astronomical objects, such as stars, planets and galaxies, with ground-based telescopes, is ...
International audienceContext. The pyramid was proven to be a highly sensitive and versatile wave-fr...
Context. The diffusion of adaptive optics systems in astronomical instrumentation for large ground-b...
The next generation of giant ground and space telescopes will have the light-collecting power to det...
International audienceExtremely Large Telescopes are making Pyramid Wavefront Sensors (PWFS) the pre...
The pyramid wavefront sensor (PWFS) is the currently preferred design for high-sensitivity adaptive ...
International audienceExtreme adaptive optics (AO) is crucial for enabling the contrasts needed for ...
Context. Extremely large telescopes are overwhelmingly equipped with pyramid wavefront sensors (PyWF...
In this letter we evaluate the limiting magnitude for a Pyramid Sensor operating in a closed loop a...
The pyramid wave-front sensor in its original form works with a mechanical modulation that adapts th...
The Giant Segmented Mirror Telescopes (GSMTs) including the Giant Magellan Telescope (GMT), the Thir...
The pyramid sensor (PS) is an interesting alternative to the Shack-Hartmann wavefront sensor (SH WFS...
Known exoplanets are 10 thousand to 10 billion times fainter than their host stars.These high contra...
The Giant Segmented Mirror Telescopes (GSMTs) including the Giant Magellan Telescope (GMT), the Thir...
Imaging astronomical objects, such as stars, planets and galaxies, with ground-based telescopes, is ...
International audienceContext. The pyramid was proven to be a highly sensitive and versatile wave-fr...
Add to ORKG