Energetic Constraints on In Situ Production of Short-Lived Radionuclei in the Early Solar System
We calculate upper limits on the amount of short-lived radionuclei that can be produced by nonthermal nucleosynthesis in the early solar system. Using energetic constraints obtained from X-ray observations of young stellar objects, we show that irradiation of bare solids can produce super(10)Be and...
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| Published in | The Astrophysical journal Vol. 671; no. 1; pp. L69 - L72 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Chicago, IL
IOP Publishing
10.12.2007
University of Chicago Press |
| Subjects | |
| Online Access | Get full text |
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| Abstract | We calculate upper limits on the amount of short-lived radionuclei that can be produced by nonthermal nucleosynthesis in the early solar system. Using energetic constraints obtained from X-ray observations of young stellar objects, we show that irradiation of bare solids can produce super(10)Be and super(41)Ca at levels compatible with a homogeneous distribution over the entire protoplanetary disk up to the comet-forming region. super(53)Mn and super(36)CI cannot be produced at canonical levels together with super(10)Be and super(41)Ca, unless we posit a heterogeneous spatial distribution. The high level of super(7)Be suggested recently is barely compatible with a reproduction of super(10)Be up to the cometary reservoir and may indicate the irradiation of a gas phase. Finally, we show that the maximum amount of irradiation-induced super(26)AI can only account for a homogeneous distribution of this radionuclide over a rocky reservoir of 2-3 M [unk] and that the well-defined canonical super(26)AI/ super(27) AI ratio observed in Ca-AI-rich inclusions is probably not compatible with an in situ production in the embedded phase of the Sun. If extinct super(26)AI is detected in the cometary material from the Stardust mission, the nucleosynthetic process that produced this preeminent high-resolution chronometer should be searched for in stellar events contemporary with the birth of the Sun. |
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| AbstractList | We calculate upper limits on the amount of short-lived radionuclei that can be produced by nonthermal nucleosynthesis in the early solar system. Using energetic constraints obtained from X-ray observations of young stellar objects, we show that irradiation of bare solids can produce super(10)Be and super(41)Ca at levels compatible with a homogeneous distribution over the entire protoplanetary disk up to the comet-forming region. super(53)Mn and super(36)CI cannot be produced at canonical levels together with super(10)Be and super(41)Ca, unless we posit a heterogeneous spatial distribution. The high level of super(7)Be suggested recently is barely compatible with a reproduction of super(10)Be up to the cometary reservoir and may indicate the irradiation of a gas phase. Finally, we show that the maximum amount of irradiation-induced super(26)AI can only account for a homogeneous distribution of this radionuclide over a rocky reservoir of 2-3 M [unk] and that the well-defined canonical super(26)AI/ super(27) AI ratio observed in Ca-AI-rich inclusions is probably not compatible with an in situ production in the embedded phase of the Sun. If extinct super(26)AI is detected in the cometary material from the Stardust mission, the nucleosynthetic process that produced this preeminent high-resolution chronometer should be searched for in stellar events contemporary with the birth of the Sun. We calculate upper limits on the amount of short-lived radionuclei that can be produced by nonthermal nucleosynthesis in the early solar system. Using energetic constraints obtained from X-ray observations of young stellar objects, we show that irradiation of bare solids can produce (10)Be and (41)Ca at levels compatible with a homogeneous distribution over the entire protoplanetary disk up to the comet-forming region. (53)Mn and (36)CI cannot be produced at canonical levels together with (10)Be and (41)Ca, unless we posit a heterogeneous spatial distribution. The high level of (7)Be suggested recently is barely compatible with a reproduction of (10)Be up to the cometary reservoir and may indicate the irradiation of a gas phase. Finally, we show that the maximum amount of irradiation-induced (26)AI can only account for a homogeneous distribution of this radionuclide over a rocky reservoir of 2-3 M [unk] and that the well-defined canonical (26)AI/(27) AI ratio observed in Ca-AI-rich inclusions is probably not compatible with an in situ production in the embedded phase of the Sun. If extinct (26)AI is detected in the cometary material from the Stardust mission, the nucleosynthetic process that produced this preeminent high-resolution chronometer should be searched for in stellar events contemporary with the birth of the Sun. |
| Author | Duprat, Jean Tatischeff, Vincent |
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| Cites_doi | 10.1086/375492 10.1126/science.1108140 10.1086/432099 10.1016/j.nuclphysa.2005.07.015 10.1086/506910 10.1126/science.271.5255.1545 10.1016/j.gca.2005.08.016 10.1086/319019 10.1007/978-94-011-4509-1_19 10.1016/j.nimb.2004.01.208 10.1086/304229 10.1126/science.1135840 10.1111/j.1945-5100.1995.tb01141.x 10.1086/319434 10.1086/306284 10.1086/191887 10.1086/432094 10.1126/science.1136141 10.1086/376795 10.1073/pnas.0407173101 10.1086/500309 10.1086/176677 10.1016/j.gca.2004.12.017 |
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| Keywords | Energetics stars: formation nuclear reactions, nucleosynthesis, abundances Star formation solar system: formation Nucleosynthesis Abundance Solar system |
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| References | rf6_468 Reames D. V. (rf21_483) 1999; 90 rf20_482 rf30_492 rf31_493 rf8_470 rf10_472 rf14_476 rf28_490 Fitoussi C. (rf5_467) 2004; 35 rf26_488 rf32_494 rf11_473 rf15_477 Duprat J. (rf4_466) 2007; 38 rf1_463 rf19_481 rf22_484 rf18_480 rf23_485 rf27_489 rf29_491 rf12_474 rf16_478 MacPherson G. J. (rf17_479) 1995; 30 rf2_464 rf13_475 Desch S. J. (rf3_465) 2005; 40 rf24_486 rf9_471 Ryter C. (rf25_487) 1970; 8 rf7_469 |
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| Title | Energetic Constraints on In Situ Production of Short-Lived Radionuclei in the Early Solar System |
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