Maria Gritsevich points our attention at a recently published meteor related paper:

Determination of strewn fields for meteorite falls

This article has been published in Monthly Notices of the Royal Astronomical Society by Jarmo Moilanen, Maria Gritsevich and Esko Lyytinen.

 

Abstract: When an object enters the atmosphere it may be detected as a meteor. A bright meteor, called a fireball, may be a sign of a meteorite fall. Instrumentally observed meteorite falls provide unique opportunities to recover and analyse unweathered planetary samples supplemented with the knowledge on the Solar System orbit they had. To recover a meteorite from a fireball event, it is essential that recovery teams can be directed to a well-defined search area. Until recently, simulations showing the realistic mapping of a strewn field was difficult, in particular due to the large number of unknowns not directly retrieved from the fireball observations. These unknowns include the number of fragments and their aerodynamic properties, for which the masses of the fragments need to be assumed in a traditional approach. Here we describe a new Monte Carlo model, which has already successfully assisted in several meteorite recoveries. The model is the first of its kind as it provides an adequate representation of the processes occurring during the luminous trajectory coupled together with the dark flight. In particular, the model comprises a novel approach to fragmentation modelling that leads to a realistic fragment mass distribution on the ground. We present strewn field simulations for the well-documented Košice and Neuschwanstein meteorite falls, which demonstrate good matches to the observations. We foresee that our model can be used to revise the flux of extra-terrestrial matter onto the Earth, as it provides a possibility of estimating the terminal mass of meteorite fragments reaching the ground.

Read more: https://www.maanmittauslaitos.fi/en/topical_issues/wind-change-meteorite-fall-modeling

You can download this paper for free: https://academic.oup.com/mnras/advance-article/doi/10.1093/mnras/stab586/6155056 (17 pages).

 

Older meteor library news:

2021

  • Observation of the α Carinid meteor shower 2020 unexpected outburst, by Juan Sebastian Bruzzone, Robert J. Weryk, Diego Janches, Carsten Baumann, Gunter Stober, and Jose Luis Hormaechea. (25 February 2021).
  • Fireball characteristics derivable from acoustic data, by Luke McFadden, Peter Brown, Denis Vida and Pavel Spurný. (15 February 2021).
  • Detection of a bolide in Jupiter’s atmosphere with Juno UVS, by Rohini S. Giles, Thomas K. Greathouse, Joshua A. Kammer, G. Randall, Gladstone, Bertrand Bonfond, Vincent Hue, Denis C. Grodent, Jean-Claude Gérard, Maarten H. Versteeg, Scott J. Bolton, John E. P. Connerney and Steven M. Levin. (8 February 2021).
  • The Sariçiçek howardite fall in Turkey: Source crater of HED meteorites on Vesta and impact risk of Vestoids, by Ozan Unsalan, Peter Jenniskens, Qing-Zhu Yin, Ersin Kaygisiz, Jim Albers, David L. Clark, Mikael Granvik, Iskender Demirkol, Ibrahim Y. Erdogan, Aydin S. Bengu, Mehmet E. Özel, Zahide Terzioglu, Nayeob Gi, Peter Brown, Esref Yalcinkaya, Tuğba Temel, Dinesh K. Prabhu, Darrel K. Robertson, Mark Boslough, Daniel R. Ostrowski, Jamie Kimberley, Selman Er, Douglas J. Rowlands, Kathryn L. Bryson, Cisem Altunayarunsalan, Bogdan Ranguelov, Alexander Karamanov, Dragomir Tatchev, Özlem Kocahan, Michael I. Oshtrakh, Alevtina A. Maksimova, Maxim S. Karabanalov, Kenneth L. Verosub, Emily Levin, Ibrahim Uysal, Viktor Hoffmann, Takahiro Hiroi, Vishnu Reddy, Gulce O. Ildiz, Olcay Bolukbasi, Michael E. Zolensky, Rupert Hochleitner, Melanie Kaliwoda, Sinan Öngen, Rui Fausto, Bernardo A. Nogueira, Andrey V. Chukin, Daniela Karashanova, Vladimir A. Semionkin, Mehmet Yesiltas, Timothy Glotch, Ayberk Yilmaz, Jon M. Friedrich, Matthew E. Sanborn, Magdalena Huyskens, Karen Ziegler, Curtis D. Williams, Maria Schönbächler, Kerstin Bauer, Matthias M. M. Meier, Colin Maden, Henner Busemann, Kees C. Welten, Marc W. Caffee, Matthias Laubenstein, Qin Zhou, Qiu-Li LI, XianHua LI, Yu Liu, Guo-Qiang Tang, Derek W. G. Sears, Hannah L. Mclain, Jason P. Dworkin, Jamie E. Elsila, Daniel P. Glavin, Philippe Schmitt-Kopplin, Alexander Ruf, Lucille Le Corre, & Nico Schmedemann. (6 February 2021).
  • Relationship between Radar Cross Section and Optical Magnitude based on Radar
    and Optical Simultaneous Observations of Faint Meteors
    , by Ryou Ohsawa, Akira Hirota, Kohei Morita, Shinsuke Abe, Daniel Kastinen, Johan Kero, Csilla Szasz, Yasunori Fujiwara, Takuji Nakamura, Koji Nishimura, Shigeyuki Sako, Jun-ichi Watanabe, Tsutomu Aoki, Noriaki Arima, Ko Arimatsu, Mamoru Doi, Makoto Ichiki, Shiro Ikeda, Yoshifusa Ita, Toshihiro Kasuga, Naoto Kobayashi, Mitsuru Kokubo, Masahiro Konishi, Hiroyuki Maehara, Takashi Miyata, Yuki Mori, Mikio Morii, Tomoki Morokuma, Kentaro Motohara, Yoshikazu Nakada, Shin-ichiro Okumura, Yuki Sarugaku, Mikiya Sato, Toshikazu Shigeyama, Takao Soyano, Hidenori Takahashi, Masaomi Tanaka, Ken’ichi Tarusawa, Nozomu Tominaga, Seitaro Urakawa, Fumihiko Usui, Takuya Yamashita, Makoto Yoshikawa. (6 February 2021).
  • Ejby—A new H5/6 ordinary chondrite fall in Copenhagen, Denmark, by by H. Haack, A. N. Sørensen, A. Bischoff, M. Patzek, J.-A. Barrat, S. Midtskogen, E. Stempels, M. Laubenstein, R. Greenwood, P. Schmittkopplin, H. Busemann, C. Maden, K. Bauer, P. Morina, M. Schönbächler, P. Voss and T. Dahl-Jensen. (2 February 2021).
  • The Great Chinese Fireball of December 22, 2020, by Albino Carbognani. (7 January 2021).
  • Trajectory and orbit of the unique carbonaceous meteorite Flensburg, by Jiří Borovička, Felix Bettonvil, Gerd Baumgarten, Jörg Strunk, Mike Hankey, Pavel Spurný, and Dieter Heinlein. (7 January 2021).
  • Remarks on generating realistic synthetic meteoroid orbits, by T. J. Jopek. (6 January 2021).

2020

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2018

2017