Optical observations on the Earth must cope with the refractive disturbances of the atmosphere, perturbations by the day-to-night thermal cycle, vibrations induced by the wind, and the bending of the telescope by gravity. These all conspire to limit telescope performance. In particular, in trying to improve angular resolution, there seems to be a practical limit of the order of a few tenths of an arc-second for the realizable angular resolution of single-aperture telescopes, largely imposed by the atmosphere, although other structural limitations would appear as limits at one-tenth of an arc-second or so
A Laser‐Interferometer Gravitational‐Wave Observatory (LIGO) is planned for operation in the United ...
The geological features of the Moon that may be advantageous for astronomical observations are liste...
A new heterodyne interferometer for the atmospheric window from 9 to 12 microns was developed during...
Optical interferometric arrays are particularly attractive candidates for a manned lunar base. A per...
Resolution is the greatest constraint in observational astronomy. The Earth's atmosphere causes on o...
The accuracy of Earth-based radio astronomy is limited in a fundamental way by the variable delay of...
An array of three radio telescopes on the Moon, separated by 100-1000 km, could measure the position...
Slides of the oral presentation given at the CNES Workshop "Lune 2023", Paris, 28-29 March 2023.Opti...
Before contemplating an optical interferometer on the Moon one must first review the accomplishments...
The Moon offers some remarkable opportunities for performing infrared astronomy. Although the transp...
The opportunities along with the advantages and disadvantages of the Moon for astronomical observato...
International audienceWe address three major questions in astronomy, namely the detection of biosign...
none8siLunar Laser Ranging (LLR), by providing routine measurements of the distance to retro-reflect...
The growth of space observatories, especially at optical wavelengths, during the next several decade...
Gravitational wave astronomy continues to be one of the exploration concepts under consideration in ...
A Laser‐Interferometer Gravitational‐Wave Observatory (LIGO) is planned for operation in the United ...
The geological features of the Moon that may be advantageous for astronomical observations are liste...
A new heterodyne interferometer for the atmospheric window from 9 to 12 microns was developed during...
Optical interferometric arrays are particularly attractive candidates for a manned lunar base. A per...
Resolution is the greatest constraint in observational astronomy. The Earth's atmosphere causes on o...
The accuracy of Earth-based radio astronomy is limited in a fundamental way by the variable delay of...
An array of three radio telescopes on the Moon, separated by 100-1000 km, could measure the position...
Slides of the oral presentation given at the CNES Workshop "Lune 2023", Paris, 28-29 March 2023.Opti...
Before contemplating an optical interferometer on the Moon one must first review the accomplishments...
The Moon offers some remarkable opportunities for performing infrared astronomy. Although the transp...
The opportunities along with the advantages and disadvantages of the Moon for astronomical observato...
International audienceWe address three major questions in astronomy, namely the detection of biosign...
none8siLunar Laser Ranging (LLR), by providing routine measurements of the distance to retro-reflect...
The growth of space observatories, especially at optical wavelengths, during the next several decade...
Gravitational wave astronomy continues to be one of the exploration concepts under consideration in ...
A Laser‐Interferometer Gravitational‐Wave Observatory (LIGO) is planned for operation in the United ...
The geological features of the Moon that may be advantageous for astronomical observations are liste...
A new heterodyne interferometer for the atmospheric window from 9 to 12 microns was developed during...