Simultaneous optical and radar observations of meteor head-echoes utilizing SAAMER

Simultaneous optical and radar observations of meteor head-echoes utilizing SAAMER

We present simultaneous optical and radar observations of meteors observed with the Southern Argentine Agile MEteor Radar (SAAMER). Although such observations were performed in the past using High Power and Large Aperture radars, the focus here is on meteors that produced head echoes that can be det...

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Bibliographic Details
Published in:Planetary and space science Vol. 118; pp. 95 - 101
Main Authors: Michell, R.G., Janches, D., Samara, M., Hormaechea, J.L., Brunini, C., Bibbo, I.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2015
Subjects:
Accessibility
Echoes
Head echo
Interferometry
Meteor
Meteor mass
Meteors
Optical
Radar
Radar beams
Radar data
Statistics
PSW, Argentina, Tierra del Fuego
Head echo
Meteor
Optical
Meteor mass
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Summary:We present simultaneous optical and radar observations of meteors observed with the Southern Argentine Agile MEteor Radar (SAAMER). Although such observations were performed in the past using High Power and Large Aperture radars, the focus here is on meteors that produced head echoes that can be detected by a significantly less sensitive but more accessible radar system. An observational campaign was conducted in August of 2011, where an optical imager was operated near the radar site in Rio Grande, Tierra del Fuego, Argentina. Six head echo events out of 150 total detections were identified where simultaneous optical meteors could also be clearly seen within the main radar beam. The location of the meteors derived from the radar interferometry agreed very well with the optical location, verifying the accuracy of the radar interferometry technique. The meteor speeds and origin directions calculated from the radar data were accurate—compared with the optics—for the 2 meteors that had radar signal-to-noise ratios above 2.5. The optical meteors that produced the head echoes had horizontal velocities in the range of 29–91km/s. These comparisons with optical observations improve the accuracy of the radar detection and analysis techniques, such that, when applied over longer periods of time, will improve the statistics of southern hemisphere meteor observations. Mass estimates were derived using both the optical and radar data and the resulting masses agreed well with each other. All were within an order of magnitude and in most cases, the agreement was within a factor of two. •The radar and optical mass estimates agree well within an order of magnitude.•The optically derived mass correlates well with the maximum radar SNR.•A radar SNR of 2.5 is the lower limit of producing accurate interferometry.
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content type line 23
ISSN:0032-0633
1873-5088
DOI:10.1016/j.pss.2015.04.018