Constraints on the formation environment of two chondrule-like igneous particles from comet 81P/Wild 2

Zack Gainsforth; Anna L. Butterworth; Julien Stodolna; Andrew J. Westphal; Gary R. Huss; Kazu Nagashima; Ryan Ogliore; Donald E. Brownlee; David Joswiak; Tolek Tyliszczak; Alexandre S. Simionovici

doi:10.1111/maps.12445

Constraints on the formation environment of two chondrule-like igneous particles from comet 81P/Wild 2

Zack Gainsforth
, Anna L. Butterworth
, Julien Stodolna
, Andrew J. Westphal
, Gary R. Huss
, Kazu Nagashima
, Ryan Ogliore
, Donald E. Brownlee
, David Joswiak
, Tolek Tyliszczak
, Alexandre S. Simionovici

Department of Physics

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

38 Scopus citations

Abstract

Using chemical and petrologic evidence and modeling, we deduce that two chondrule-like particles named Iris and Callie, from Stardust cometary track C2052,12,74, formed in an environment very similar to that seen for type II chondrules in meteorites. Iris was heated near liquidus, equilibrated, and cooled at ≤100 °C h^-1 and within ≈2 log units of the IW buffer with a high partial pressure of Na such as would be present with dust enrichments of ≈10³. There was no detectable metamorphic, nebular, or aqueous alteration. In previous work, Ogliore et al. (2012) reported that Iris formed late, >3 Myr after CAIs, assuming ²⁶Al was homogenously distributed, and was rich in heavy oxygen. Iris may be similar to assemblages found only in interplanetary dust particles and Stardust cometary samples called Kool particles. Callie is chemically and isotopically very similar, but not identical to Iris.

Original language	English
Pages (from-to)	976-1004
Number of pages	29
Journal	Meteoritics and Planetary Science
Volume	50
Issue number	5
DOIs	https://doi.org/10.1111/maps.12445
State	Published - May 1 2015

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Gainsforth, Z., Butterworth, A. L., Stodolna, J., Westphal, A. J., Huss, G. R., Nagashima, K., Ogliore, R., Brownlee, D. E., Joswiak, D., Tyliszczak, T., & Simionovici, A. S. (2015). Constraints on the formation environment of two chondrule-like igneous particles from comet 81P/Wild 2. Meteoritics and Planetary Science, 50(5), 976-1004. https://doi.org/10.1111/maps.12445

@article{bb9df02687da4b4bb66d469df9b65a70,

title = "Constraints on the formation environment of two chondrule-like igneous particles from comet 81P/Wild 2",

abstract = "Using chemical and petrologic evidence and modeling, we deduce that two chondrule-like particles named Iris and Callie, from Stardust cometary track C2052,12,74, formed in an environment very similar to that seen for type II chondrules in meteorites. Iris was heated near liquidus, equilibrated, and cooled at ≤100 °C h-1 and within ≈2 log units of the IW buffer with a high partial pressure of Na such as would be present with dust enrichments of ≈103. There was no detectable metamorphic, nebular, or aqueous alteration. In previous work, Ogliore et al. (2012) reported that Iris formed late, >3 Myr after CAIs, assuming 26Al was homogenously distributed, and was rich in heavy oxygen. Iris may be similar to assemblages found only in interplanetary dust particles and Stardust cometary samples called Kool particles. Callie is chemically and isotopically very similar, but not identical to Iris.",

author = "Zack Gainsforth and Butterworth, \{Anna L.\} and Julien Stodolna and Westphal, \{Andrew J.\} and Huss, \{Gary R.\} and Kazu Nagashima and Ryan Ogliore and Brownlee, \{Donald E.\} and David Joswiak and Tolek Tyliszczak and Simionovici, \{Alexandre S.\}",

note = "Publisher Copyright: {\textcopyright} The Meteoritical Society, 2015.",

year = "2015",

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doi = "10.1111/maps.12445",

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T1 - Constraints on the formation environment of two chondrule-like igneous particles from comet 81P/Wild 2

AU - Gainsforth, Zack

AU - Butterworth, Anna L.

AU - Stodolna, Julien

AU - Westphal, Andrew J.

AU - Huss, Gary R.

AU - Nagashima, Kazu

AU - Ogliore, Ryan

AU - Brownlee, Donald E.

AU - Joswiak, David

AU - Tyliszczak, Tolek

AU - Simionovici, Alexandre S.

PY - 2015/5/1

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N2 - Using chemical and petrologic evidence and modeling, we deduce that two chondrule-like particles named Iris and Callie, from Stardust cometary track C2052,12,74, formed in an environment very similar to that seen for type II chondrules in meteorites. Iris was heated near liquidus, equilibrated, and cooled at ≤100 °C h-1 and within ≈2 log units of the IW buffer with a high partial pressure of Na such as would be present with dust enrichments of ≈103. There was no detectable metamorphic, nebular, or aqueous alteration. In previous work, Ogliore et al. (2012) reported that Iris formed late, >3 Myr after CAIs, assuming 26Al was homogenously distributed, and was rich in heavy oxygen. Iris may be similar to assemblages found only in interplanetary dust particles and Stardust cometary samples called Kool particles. Callie is chemically and isotopically very similar, but not identical to Iris.

AB - Using chemical and petrologic evidence and modeling, we deduce that two chondrule-like particles named Iris and Callie, from Stardust cometary track C2052,12,74, formed in an environment very similar to that seen for type II chondrules in meteorites. Iris was heated near liquidus, equilibrated, and cooled at ≤100 °C h-1 and within ≈2 log units of the IW buffer with a high partial pressure of Na such as would be present with dust enrichments of ≈103. There was no detectable metamorphic, nebular, or aqueous alteration. In previous work, Ogliore et al. (2012) reported that Iris formed late, >3 Myr after CAIs, assuming 26Al was homogenously distributed, and was rich in heavy oxygen. Iris may be similar to assemblages found only in interplanetary dust particles and Stardust cometary samples called Kool particles. Callie is chemically and isotopically very similar, but not identical to Iris.

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DO - 10.1111/maps.12445

M3 - Article

AN - SCOPUS:84928755475

SN - 1086-9379

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JO - Meteoritics and Planetary Science

JF - Meteoritics and Planetary Science

IS - 5

ER -

Constraints on the formation environment of two chondrule-like igneous particles from comet 81P/Wild 2

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