Organic Synthesis in the Late Stages of Stellar Evolution

恒星演化后期的有机合成

• 批准号: RGPIN-2018-03813
• 负责人: Kwok, Sun
• 金额: $ 2.04万
• 依托单位: University of British Columbia
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=656196
• 关键词: Organic; Synthesis; Late; Stages; Stellar

Infrared spectroscopic observations of the stretching and bending modes of aliphatic and aromatic compounds are now seen throughout the Universe, from the circumstellar envelopes of stars to the diffuse interstellar medium of the Milky Way Galaxy to distant galaxies. As much as 20% of the energy output of some galaxies is emitted in these bands. As we are also looking back in time, their detection in distant galaxies suggest that synthesis of complex organics has already taken place in the Universe 10 billion years ago.******Observations of evolved stars have revealed a rapid (thousands year time scale) and continuous synthesis of organic materials in the late stages of stellar evolution, specifically from the end of the asymptotic giant branch, to proto-planetary nebulae, to planetary nebulae. These synthesized products are ejected into the interstellar medium through stellar winds and as a result have enriched the Galaxy with complex organics.******Analysis of the infrared spectra suggests that the chemical structure of the carrier is consistent with that of mixed aromatic and aliphatic nanoparticles (MAON). These structures are very similar to those of the insoluble organic matter found in meteorites, organics on the surface of Titan, cometary dust, and interplanetary dust particles, suggesting that the early solar system may have been enriched by stellar ejecta.******As part of an interdisciplinary research program, we will obtain spectroscopic observations of astronomical sources in the infrared and submm, perform data analysis of data from recent planetary missions, and undertake quantum chemistry calculations to determine the vibrational spectra of complex organics for comparison with observed data. Our goals are to identify the chemical structure of stellar organics, to determine their chemical pathways of synthesis, to explore their relationship with Solar System organics, and to investigate their possible effects on the primordial Earth. **

现在，从恒星的星周包层到银河系扩散的星际介质，再到遥远的星系，对脂肪族和芳香族化合物伸缩和弯曲模式的红外光谱观测遍布整个宇宙。一些星系高达20%的能量输出是在这些波段中发射的。当我们回顾过去的时候，它们在遥远的星系中的发现表明，100亿年前宇宙中已经发生了复杂有机物的合成。对演化恒星的观察揭示了恒星演化后期的快速(数千年时间尺度)和持续的有机物质合成，特别是从渐近巨型分支的末端，到原行星星云，再到行星星云。这些合成的产物通过恒星风喷射到星际介质中，结果使银河系富含复杂的有机物。红外光谱分析表明，载体的化学结构与芳香族和脂肪族混合纳米粒子(MAON)的化学结构一致。这些结构与陨石、土卫六表面的有机物、彗星尘埃和行星际尘埃粒子中的不溶有机物非常相似，表明早期太阳系可能受到恒星喷发的丰富。*作为跨学科研究计划的一部分，我们将获得红外和亚毫米天文来源的光谱观测，对最近的行星任务数据进行数据分析，并进行量子化学计算以确定复杂有机物的振动光谱，以便与观测数据进行比较。我们的目标是确定恒星有机物的化学结构，确定它们的化学合成途径，探索它们与太阳系有机物的关系，并调查它们对原始地球的可能影响。**