Add to ORKGLong-baseline interferometry detects fringes created by superposition of two beams of light collected by two telescopes pointing into a common direction. The external path difference generated by pointing away from the zenith is commonly compensated by adding a variable optical path length (delay) through air for one beam such that the optical path difference between the beams remains close to zero near the detector. The ABCD formula assigns a (wrapped) phase to the amplitudes A to D of an interference pattern shifted by multiples of 90 degrees in phase. We study the interplay between a wide band pass of the optics and the dispersion of the air in the compensating delay, which leads to small deviations between the ABCD phase and the reduced...
Phase “extraction" by using temporal phase shifting is sensitive to vibrations and drifts, producing...
Context. Modern radio interferometers sensitive to low frequencies will make use of wide-band detect...
We describe a phase-amplification technique using a Sagnac interferometer. We monitor the relative p...
The accuracy inherent in the fringe phase in the determination of source positions was calculated. I...
We investigate general properties of the interferograms from a frequency comb laser in a non-linear ...
Bandwidth smearing is a chromatic aberration due to the finite frequency bandwidth. In long-baseline...
The conditions for the applicability of the phase observable in very long baseline interferometry ar...
International audienceThe next generation of optical interferometers will provide high-resolution im...
We describe the fringe-packet tracking system used to equalize the optical path lengths at the Infra...
The high precision of the phase delay data type allows angular navigation accuracy on relatively sho...
Journal ArticleAn extended analysis of the effects of uncompensated fiber dispersion on the fringe v...
In order to determine the size of the decametric sources, the technique of long baseline radio inter...
Long-baseline interferometry achieves high resolution by using two or more widely separated radio te...
We have investigated correlation patterns generated by a frequency-comb laser in a dispersive unbala...
Phase “extraction" by using temporal phase shifting is sensitive to vibrations and drifts, producing...
Context. Modern radio interferometers sensitive to low frequencies will make use of wide-band detect...
We describe a phase-amplification technique using a Sagnac interferometer. We monitor the relative p...
The accuracy inherent in the fringe phase in the determination of source positions was calculated. I...
We investigate general properties of the interferograms from a frequency comb laser in a non-linear ...
Bandwidth smearing is a chromatic aberration due to the finite frequency bandwidth. In long-baseline...
The conditions for the applicability of the phase observable in very long baseline interferometry ar...
International audienceThe next generation of optical interferometers will provide high-resolution im...
We describe the fringe-packet tracking system used to equalize the optical path lengths at the Infra...
The high precision of the phase delay data type allows angular navigation accuracy on relatively sho...
Journal ArticleAn extended analysis of the effects of uncompensated fiber dispersion on the fringe v...
In order to determine the size of the decametric sources, the technique of long baseline radio inter...
Long-baseline interferometry achieves high resolution by using two or more widely separated radio te...
We have investigated correlation patterns generated by a frequency-comb laser in a dispersive unbala...
Phase “extraction" by using temporal phase shifting is sensitive to vibrations and drifts, producing...
Context. Modern radio interferometers sensitive to low frequencies will make use of wide-band detect...
We describe a phase-amplification technique using a Sagnac interferometer. We monitor the relative p...