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Isotopic Anomalies in Primitive Solar System Matter: Spin-State-Dependent Fractionation of Nitrogen and Deuterium in Interstellar Clouds.

机译：原始太阳系中的同位素异常问题：星际云中氮和氘的自旋态依赖性分馏。

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Organic material found in meteorites and interplanetary dust particles is enriched in D and N-15. This is consistent with the idea that the functional groups carrying these isotopic anomalies, nitriles and amines, were formed by ion-molecule chemistry in the protosolar nebula, Theoretical models of interstellar fractionation at low temperatures predict large enrichments in both D and N-15 and can account for the largest isotopic enrichments measured in carbonaceous meteorites. However, more recent measurements have shown that, in some primitive samples, a large N-15 enrichment does not correlate with one in D, and that some D-enriched primitive material displays little, if any, N-15 enrichment. By considering the spin-state dependence in ion-molecule reactions involving the ortho and para forms of H2, we show that ammonia and related molecules can exhibit such a wide range of fractionation for both N-15 and D in dense cloud cores. We also show that while the nitriles, HCN and HNC, contain the greatest N=15 enrichment, this is not expected to correlate with extreme D enrichment. These calculations therefore support the view that solar system N-15 and D isotopic anomalies have an interstellar heritage. We also compare our results to existing astronomical observations and briefly discuss future tests of this model.

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Wirstrom, E. S.; Charnley, S. B.; Cordiner, M. A.; Milam, S. N.;
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年度 2012
页码 1-6
总页数 6
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Deuterium; Fractionation; Interplanetary dust; Mathematical models; Meteorites; Molecular clouds; Nitrogen 15; Cosmochemistry; Solar system evolution; Solar system; Interstellar chemistry;

机译：氘;分馏;行星际尘埃;数学模型;陨石;分子云;氮15;宇宙化学;太阳系演化;太阳系;星际化学;

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1. 中纬度地区混合云中稳定同位素分馏的数学模拟-以乌鲁木齐降水为例 [J] . 大气科学进展（英文版） . 2003,第002期
2. Isotopic anomalies in primitive solar system matter: Spin-state-dependent fractionation of nitrogen and deuterium in interstellar clouds [J] . Wirstr?m E.S., Charnley S.B., Cordiner M.A., The Astrophysical Journal. Letters . 2012,第1期

机译：原始太阳系物质中的同位素异常：星际云中氮和氘的自旋态相关分馏
3. Enrichment of deuterium in insoluble organic matter from primitive meteorites: A solar system origin? [J] . Rernusat L, Palhol F, Robert F, Earth and Planetary Science Letters: A Letter Journal Devoted to the Development in Time of the Earth and Planetary System . 2006,第1a2期

机译：原始陨石中不溶有机物中氘的富集：太阳系起源？
4. The Investigation of Isotopic Mass Fractionation Processes in the Primordial Solar Nebula and the Realization of in-situ Isotope Survey of Primitive Materials [J] . Chiaki Uyeda Journal of the Mass Spectrometry Society of Japan . 2001,第3期

机译：太阳原始星云中同位素质量分馏过程的研究及原始材料原位同位素测量的实现
5. Challenges for interpreting stable isotope fractionation of carbon and nitrogen in tropical aquatic ecosystems [C] . Susan S. Kilham, Meshagae Hunte-Brown, Piet Verburg, International Association of Theoretical and Applied Limnology . 2009

机译：解释热带水生生态系统中碳和氮稳定同位素分馏的挑战
6. Interstellar matter kinematics in the Magellanic clouds. [D] . Danforth, Charles Weston. 2003

机译：麦哲伦星云中的星际物质运动学。
7. Possible Mechanisms of Biological Effects Observed in Living Systems during 2H/1H Isotope Fractionation and Deuterium Interactions with Other Biogenic Isotopes [O] . Alexander Basov, Liliya Fedulova, Ekaterina Vasilevskaya, 2019

机译：2H / 1H同位素分馏和氘与其他生物同位素相互作用期间在生命系统中观察到的生物效应的可能机制
8. Isotopic Anomalies in Primitive Solar System Matter: Spin-State-Dependent Fractionation of Nitrogen and Deuterium in Interstellar Clouds [O] . Charnley, Steven B., Cordiner, Martin A., Milam, Stefanie N., 2012

机译：太阳系物质的同位素异常：星际云中自旋态依赖的氮和氘的分馏

Isotopic Anomalies in Primitive Solar System Matter: Spin-State-Dependent Fractionation of Nitrogen and Deuterium in Interstellar Clouds.

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