He and Ne ages of large presolar silicon carbide grains: Solving the recoil problem

Ulrich Ott; Philipp R. Heck; Frank Gyngard; Rainer Wieler; Frédéric Wrobel; Sachiko Amari; Ernst Zinner

doi:10.1071/AS08039

He and Ne ages of large presolar silicon carbide grains: Solving the recoil problem

Ulrich Ott
, Philipp R. Heck
, Frank Gyngard
, Rainer Wieler
, Frédéric Wrobel
, Sachiko Amari
, Ernst Zinner

Department of Physics

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

13 Scopus citations

Abstract

Knowledge about the age of presolar grains provides important insights into Galactic chemical evolution and the dynamics of grain formation and destruction processes in the Galaxy. Determination from the abundance of cosmic ray interaction products is straightforward, but in the past has suffered from uncertainties in correcting for recoil losses of spallation products. The problem is less serious in a class of large (tens of m) grains. We describe the correction procedure and summarise results for He and Ne ages of presolar SiC 'Jumbo' grains that range from close to zero to &sim;850 Myr, with the majority being less than 200 Myr. We also discuss the possibility of extending our approach to the majority of smaller SiC grains and explore possible contributions from trapping of cosmic rays.

Original language	English
Pages (from-to)	297-302
Number of pages	6
Journal	Publications of the Astronomical Society of Australia
Volume	26
Issue number	3
DOIs	https://doi.org/10.1071/AS08039
State	Published - 2009

Keywords

Circumstellar matter
Cosmic rays
ISM: kinematic and dynamics
Stars: AGB

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10.1071/AS08039

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title = "He and Ne ages of large presolar silicon carbide grains: Solving the recoil problem",

abstract = "Knowledge about the age of presolar grains provides important insights into Galactic chemical evolution and the dynamics of grain formation and destruction processes in the Galaxy. Determination from the abundance of cosmic ray interaction products is straightforward, but in the past has suffered from uncertainties in correcting for recoil losses of spallation products. The problem is less serious in a class of large (tens of m) grains. We describe the correction procedure and summarise results for He and Ne ages of presolar SiC 'Jumbo' grains that range from close to zero to \&sim;850 Myr, with the majority being less than 200 Myr. We also discuss the possibility of extending our approach to the majority of smaller SiC grains and explore possible contributions from trapping of cosmic rays.",

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TY - JOUR

T1 - He and Ne ages of large presolar silicon carbide grains

T2 - Solving the recoil problem

AU - Ott, Ulrich

AU - Heck, Philipp R.

AU - Gyngard, Frank

AU - Wieler, Rainer

AU - Wrobel, Frédéric

AU - Amari, Sachiko

AU - Zinner, Ernst

PY - 2009

Y1 - 2009

N2 - Knowledge about the age of presolar grains provides important insights into Galactic chemical evolution and the dynamics of grain formation and destruction processes in the Galaxy. Determination from the abundance of cosmic ray interaction products is straightforward, but in the past has suffered from uncertainties in correcting for recoil losses of spallation products. The problem is less serious in a class of large (tens of m) grains. We describe the correction procedure and summarise results for He and Ne ages of presolar SiC 'Jumbo' grains that range from close to zero to &sim;850 Myr, with the majority being less than 200 Myr. We also discuss the possibility of extending our approach to the majority of smaller SiC grains and explore possible contributions from trapping of cosmic rays.

AB - Knowledge about the age of presolar grains provides important insights into Galactic chemical evolution and the dynamics of grain formation and destruction processes in the Galaxy. Determination from the abundance of cosmic ray interaction products is straightforward, but in the past has suffered from uncertainties in correcting for recoil losses of spallation products. The problem is less serious in a class of large (tens of m) grains. We describe the correction procedure and summarise results for He and Ne ages of presolar SiC 'Jumbo' grains that range from close to zero to &sim;850 Myr, with the majority being less than 200 Myr. We also discuss the possibility of extending our approach to the majority of smaller SiC grains and explore possible contributions from trapping of cosmic rays.

KW - Circumstellar matter

KW - Cosmic rays

KW - ISM: kinematic and dynamics

KW - Stars: AGB

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DO - 10.1071/AS08039

M3 - Article

AN - SCOPUS:70349483837

SN - 1323-3580

VL - 26

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JO - Publications of the Astronomical Society of Australia

JF - Publications of the Astronomical Society of Australia

IS - 3

ER -

He and Ne ages of large presolar silicon carbide grains: Solving the recoil problem

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Keywords

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