Acoustic Signals of a Meteoroid Recorded on a Large-N Seismic Network and Fiber-Optic Cables

Ismael Vera Rodriguez; Marius P. Isken; Torsten Dahm; Oliver D. Lamb; Sin Mei Wu; Sigríour Kristjánsdóttir; Kristín Jónsdóttir; Pilar Sanchez-Pastor; John Clinton; Christopher Wollin; Alan F. Baird; Andreas Wuestefeld; Beat Booz; Eva P.S. Eibl; Sebastian Heimann; Bettina P. Goertz-Allmann; Philippe Jousset; Volker Oye; Vala Hjörleifsdóttir; Anne Obermann

doi:10.1785/0220220236

Acoustic Signals of a Meteoroid Recorded on a Large-N Seismic Network and Fiber-Optic Cables

Ismael Vera Rodriguez
, Marius P. Isken
, Torsten Dahm
, Oliver D. Lamb
, Sin Mei Wu
, Sigríour Kristjánsdóttir
, Kristín Jónsdóttir
, Pilar Sanchez-Pastor
, John Clinton
, Christopher Wollin
, Alan F. Baird
, Andreas Wuestefeld
, Beat Booz
, Eva P.S. Eibl
, Sebastian Heimann
, Bettina P. Goertz-Allmann
, Philippe Jousset
, Volker Oye
, Vala Hjörleifsdóttir
, Anne Obermann

Department of Engineering

Reykjavik University

Research output: Contribution to journal › Article › peer-review

Abstract

A common challenge in acoustic meteoroid signal analyses is to discriminate whether the observed wavefield can be better described by line-source or point-source models. This challenge typically arises from a sparse availability of observations. In this work, we present an outstanding record of ground-coupled waves from local large-N seismic and distributed acoustic sensing (DAS) observations of a meteoroid in Iceland. Our complete data set includes additional regional stations located within 300 km of the meteoroid's trajectory. The dense large-N and DAS data allow identification of acoustic phases that are almost impossible to discriminate on sparser networks, including a weak late arrival resolved mostly only by DAS. Using this data set with a new Bayesian inversion model, we estimate the trajectory parameters of one fragment from the meteoroid. With these results we investigate its orbit in the solar system and propose a classification of the Icelandic event as a slow meteoroid of asteroidal origin with an energy on the order of 4-40 GJ, a probable size on the order of centimeters, and an orbit range consistent with the main asteroid belt.

Original language	English
Pages (from-to)	731-745
Number of pages	15
Journal	Seismological Research Letters
Volume	94
Issue number	2 A
DOIs	https://doi.org/10.1785/0220220236
Publication status	Published - 16 Nov 2022

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Rodriguez, I. V., Isken, M. P., Dahm, T., Lamb, O. D., Wu, S. M., Kristjánsdóttir, S., Jónsdóttir, K., Sanchez-Pastor, P., Clinton, J., Wollin, C., Baird, A. F., Wuestefeld, A., Booz, B., Eibl, E. P. S., Heimann, S., Goertz-Allmann, B. P., Jousset, P., Oye, V., Hjörleifsdóttir, V., & Obermann, A. (2022). Acoustic Signals of a Meteoroid Recorded on a Large-N Seismic Network and Fiber-Optic Cables. Seismological Research Letters, 94(2 A), 731-745. https://doi.org/10.1785/0220220236

@article{1d7bbab404c24626a8efb95099bae3a5,

title = "Acoustic Signals of a Meteoroid Recorded on a Large-N Seismic Network and Fiber-Optic Cables",

abstract = "A common challenge in acoustic meteoroid signal analyses is to discriminate whether the observed wavefield can be better described by line-source or point-source models. This challenge typically arises from a sparse availability of observations. In this work, we present an outstanding record of ground-coupled waves from local large-N seismic and distributed acoustic sensing (DAS) observations of a meteoroid in Iceland. Our complete data set includes additional regional stations located within 300 km of the meteoroid's trajectory. The dense large-N and DAS data allow identification of acoustic phases that are almost impossible to discriminate on sparser networks, including a weak late arrival resolved mostly only by DAS. Using this data set with a new Bayesian inversion model, we estimate the trajectory parameters of one fragment from the meteoroid. With these results we investigate its orbit in the solar system and propose a classification of the Icelandic event as a slow meteoroid of asteroidal origin with an energy on the order of 4-40 GJ, a probable size on the order of centimeters, and an orbit range consistent with the main asteroid belt.",

author = "Rodriguez, \{Ismael Vera\} and Isken, \{Marius P.\} and Torsten Dahm and Lamb, \{Oliver D.\} and Wu, \{Sin Mei\} and Sigr{\'i}our Kristj{\'a}nsd{\'o}ttir and Krist{\'i}n J{\'o}nsd{\'o}ttir and Pilar Sanchez-Pastor and John Clinton and Christopher Wollin and Baird, \{Alan F.\} and Andreas Wuestefeld and Beat Booz and Eibl, \{Eva P.S.\} and Sebastian Heimann and Goertz-Allmann, \{Bettina P.\} and Philippe Jousset and Volker Oye and Vala Hj{\"o}rleifsd{\'o}ttir and Anne Obermann",

note = "Publisher Copyright: {\textcopyright} 2023 Seismological Society of America.",

year = "2022",

month = nov,

day = "16",

doi = "10.1785/0220220236",

language = "English",

volume = "94",

pages = "731--745",

journal = "Seismological Research Letters",

issn = "0895-0695",

publisher = "Seismological Society of America",

number = "2 A",

}

Rodriguez, IV, Isken, MP, Dahm, T, Lamb, OD, Wu, SM, Kristjánsdóttir, S, Jónsdóttir, K, Sanchez-Pastor, P, Clinton, J, Wollin, C, Baird, AF, Wuestefeld, A, Booz, B, Eibl, EPS, Heimann, S, Goertz-Allmann, BP, Jousset, P, Oye, V, Hjörleifsdóttir, V & Obermann, A 2022, 'Acoustic Signals of a Meteoroid Recorded on a Large-N Seismic Network and Fiber-Optic Cables', Seismological Research Letters, vol. 94, no. 2 A, pp. 731-745. https://doi.org/10.1785/0220220236

TY - JOUR

T1 - Acoustic Signals of a Meteoroid Recorded on a Large-N Seismic Network and Fiber-Optic Cables

AU - Rodriguez, Ismael Vera

AU - Isken, Marius P.

AU - Dahm, Torsten

AU - Lamb, Oliver D.

AU - Wu, Sin Mei

AU - Kristjánsdóttir, Sigríour

AU - Jónsdóttir, Kristín

AU - Sanchez-Pastor, Pilar

AU - Clinton, John

AU - Wollin, Christopher

AU - Baird, Alan F.

AU - Wuestefeld, Andreas

AU - Booz, Beat

AU - Eibl, Eva P.S.

AU - Heimann, Sebastian

AU - Goertz-Allmann, Bettina P.

AU - Jousset, Philippe

AU - Oye, Volker

AU - Hjörleifsdóttir, Vala

AU - Obermann, Anne

PY - 2022/11/16

Y1 - 2022/11/16

N2 - A common challenge in acoustic meteoroid signal analyses is to discriminate whether the observed wavefield can be better described by line-source or point-source models. This challenge typically arises from a sparse availability of observations. In this work, we present an outstanding record of ground-coupled waves from local large-N seismic and distributed acoustic sensing (DAS) observations of a meteoroid in Iceland. Our complete data set includes additional regional stations located within 300 km of the meteoroid's trajectory. The dense large-N and DAS data allow identification of acoustic phases that are almost impossible to discriminate on sparser networks, including a weak late arrival resolved mostly only by DAS. Using this data set with a new Bayesian inversion model, we estimate the trajectory parameters of one fragment from the meteoroid. With these results we investigate its orbit in the solar system and propose a classification of the Icelandic event as a slow meteoroid of asteroidal origin with an energy on the order of 4-40 GJ, a probable size on the order of centimeters, and an orbit range consistent with the main asteroid belt.

AB - A common challenge in acoustic meteoroid signal analyses is to discriminate whether the observed wavefield can be better described by line-source or point-source models. This challenge typically arises from a sparse availability of observations. In this work, we present an outstanding record of ground-coupled waves from local large-N seismic and distributed acoustic sensing (DAS) observations of a meteoroid in Iceland. Our complete data set includes additional regional stations located within 300 km of the meteoroid's trajectory. The dense large-N and DAS data allow identification of acoustic phases that are almost impossible to discriminate on sparser networks, including a weak late arrival resolved mostly only by DAS. Using this data set with a new Bayesian inversion model, we estimate the trajectory parameters of one fragment from the meteoroid. With these results we investigate its orbit in the solar system and propose a classification of the Icelandic event as a slow meteoroid of asteroidal origin with an energy on the order of 4-40 GJ, a probable size on the order of centimeters, and an orbit range consistent with the main asteroid belt.

UR - https://www.scopus.com/pages/publications/85151026056

U2 - 10.1785/0220220236

DO - 10.1785/0220220236

M3 - Article

SN - 0895-0695

VL - 94

SP - 731

EP - 745

JO - Seismological Research Letters

JF - Seismological Research Letters

IS - 2 A

ER -

Acoustic Signals of a Meteoroid Recorded on a Large-N Seismic Network and Fiber-Optic Cables

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