Your search keyword '"astrometry"' showing total 4 results

1. Calibration of fish-eye lens and error estimation on fireball trajectories: application to the FRIPON network.

Author

Jeanne, S., Colas, F., Zanda, B., Birlan, M., Vaubaillon, J., Bouley, S., Vernazza, P., Jorda, L., Gattacceca, J., Rault, J. L., Carbognani, A., Gardiol, D., Lamy, H., Baratoux, D., Blanpain, C., Malgoyre, A., Lecubin, J., Marmo, C., and Hewins, P.

Subjects

*ASTROMETRY, *ORBIT determination, *MEASUREMENT errors, *ESTIMATION bias, *LENSES, *CALIBRATION, *SPACE trajectories

Abstract

Context. Fireball networks are developing over the whole planet, with the aim of recovering meteorites and at the same time determining their orbits. The ultimate goal of such networks is to identify the parent bodies of meteorite families to achieve this, orbit accuracy is critical. Yet, the determination of an orbit relies on a long and complex reduction process including: (1) astrometry, with heavy distortion for fish-eye lenses, (2) estimation of the external bias on the observation, (3) fit of the trajectory, (4) deceleration model, and (5) actual orbit computation. Aims. Our goal is to compute accurate trajectories with an estimate of internal and external errors as realistic as possible, taking advantage of the dense observation network FRIPON (Fireball Recovery and InterPlanetary Observation Network), which comprises more than 100 cameras in France and Europe. In particular, we pay special attention to the distortion of images due to fish-eye lenses. In the present paper, we describe the analytical protocol that allows us to compute trajectories and their uncertainties. Methods. We developed a general distortion model to be used on the FRIPON fish-eye cameras. Such a model needs to be accurate even at low elevation, as most fireball observations are performed low on the horizon. The radial distortion is modelled by a nine-degree odd polynomial, hence by five parameters. In addition, we used three parameters to describe the geometry of the camera and two for non-symmetrical distortion. Lastly, we used a new statistical method taking systematic errors into account, which allows us to compute realistic confidence intervals. We tested our method on a fireball that fell on 2017-08-94 UT 00:06. Results. The accuracy of our astrometrical model for each camera is 2 arcmin (1σ), but the internal error on the fireball of 2017-08-94 UT 00:06 measurement is 0.7 arcmin (better than 1/10 pixel). We developed a method to estimate the external error considering that each station is independent and found it equal to 0.8 arcmin. Real residuals are coherent with our estimation of internal and external error for each camera, which confirms the internal consistency of our method. We discuss the advantages and disadvantages of this protocol. [ABSTRACT FROM AUTHOR]

Published

2019

2. L’émergence contrariée du chronographe imprimant dans les observatoires français (fin 19 – début 20 s.).

Author

Lamy, Jérôme and Soulu, Frédéric

Subjects

*ASTRONOMICAL observatories, *CHRONOGRAPH, *ASTROMETRY, *HISTORY

Abstract

Western observatories became scientific factories from the mid-19th century. Astrometry symbolized the transition to an industrious economy of scientific practices. The printing chronograph, which reduced the personal equations of the observers, was, first in the United States, then in England, the symbolic instrument of this transformation. In France, the initiatives of the astronomer Liais were prototypical. In the practices of the Hendaye Observatory, and thanks to the abbé Verschaffel, the printing chronograph made its definitive entry in French observatories at the beginning of the 20th century. Excessive centralization of French astronomy, the authoritarianism of Urbain Le Verrier, the director of the Paris Observatory, and the poor market for scientific instruments explain why the printing chronograph took root, belatedly, in France. [ABSTRACT FROM PUBLISHER]

Published

2015

3. The LQAC Compilation of the Quasars Catalogues.

Author

Souchay, Jean, Andrei, Alexandre Humberto, Barache, Christophe, Bouquillon, Sébastien, Gontier, Anne-Marie, Lambert, Sébastien Bernard, Lafitte, Christophe Le Poncin, Taris, François, Arias, Elisa Felicitas, Suchet, Daniel, and Baudin, Mathieu

Subjects

*QUASARS, *CATALOGS, *ASTRONOMY

Abstract

The always increasing number of recorded quasars leads to make a general compilation of these objects by taking into account the astrometric, photometric, radio and reshift information. This work was achieved at Paris observatory, under the acronym LQAC (Large Quasar Astrometric Catalogue). We present the various improvements brought by this compilation (Souchay et al.,2008). [ABSTRACT FROM AUTHOR]

Published

2008

4. Optical monitoring of extragalactic sources for linking the ICRF and the future Gaia celestial reference frame.

Author

Taris, F., Andrei, A., Klotz, A., Vachier, F., Côte, R., Bouquillon, S., Souchay, J., Lambert, S., Anton, S., Bourda, G., and Coward, D.

Subjects

*CELESTIAL reference systems, *WAVELENGTHS, *ASTROMETRY, *QUASARS

Abstract

Context. The astrometric mission Gaia of the European Space Agency is scheduled to be launched in 2013. It will provide an astrometric catalog of 500 000 extragalactic sources that could be the basis of a new optical reference frame after the Hipparcos satellite one. On the other hand, the current International Celestial Reference Frame (ICRF) is based on observations of extragalactic sources at radio wavelength. The astrometric coordinates of sources in these two reference systems will have roughly the same uncertainty. It is then mandatory to observe a set of common targets at both optical and radio wavelengths to link the ICRF with what could be called the Gaia Celestial Reference Frame (GCRF). Aims. The goal of this work is to observe a first set of 70 extragalactic sources at optical wavelengths that could achieve the link with the ICRF. Variations in the light curves of these targets are connected with astrophysical processes that could produce displacements of the optical photocenter. Such displacements, if they exist, are critical in the framework of the link of reference systems. Methods. Four telescopes were used to observe the targets at optical wavelengths. Two of them are located in France, one in Chile, and the last one in Australia. First observations were carried out during one year and a half in the R and V bands. A new method of characterizing the compactness of the targets was applied to the images obtained. Results. This paper presents results for the optical monitoring of extragalactic sources suitable for linking reference systems. We show that a large number of targets in our set are variable at the two observational wavelengths. A short presentation of each object is given, along with some references to earlier photometric studies. A morphological index is defined and applied to the 5000 images obtained during the observation campaign. Conclusions. This work fits into a more general project of astrophotometric and astrophysical studies of extragalactic radiosources in the framework of the reference systems. It brings to the astrometric community some information at optical wavelengths about a set of targets that could be used for the link between the radio ICRF and the future GCRF. [ABSTRACT FROM AUTHOR]

Published

2013