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    题名: 一氧化二氮冰晶在真空紫外光照射下其生成溫度對耗散截面的影響;Effect of Deposition Temperature on the Depletion Cross-Section of N2O Ice under VUV Irradiation
    作者: 陳映瑄;Chen, Ying-Hsuan
    贡献者: 物理學系
    关键词: 一氧化二氮;星際冰晶;真空紫外光;耗散截面;N2O;interstellar ice;vacuum ultraviolet (VUV);depletion cross-section
    日期: 2023-10-03
    上传时间: 2024-09-19 15:56:12 (UTC+8)
    出版者: 國立中央大學
    摘要: 在冷星雲的低溫環境下,大多數分子會凝結在塵埃上形成冰晶結構,並在不同能量源的照射下引發非熱脫附或化學反應。氮氧化物被視為形成胺基酸的前導物質之一,然而在宇宙中雖然已經偵測到超過200種不同的氣態分子,但僅有六種是氮氧化物,其中包括一氧化二氮分子。然而,科學家尚未在這些冰晶中發現一氧化二氮分子,因此一氧化二氮的耗散機制成為科學家感興趣的研究課題之一。
    本研究的主要目的是觀察一氧化二氮冰晶分子在真空紫外光照射下的耗散截面並探討冰晶生成溫度對其的影響。研究結果發現一氧化二氮冰晶的耗散截面會受到產物與長冰溫度的影響,截面除了隨著累積照射光子數逐漸增加外,成冰溫度越高耗散截面會越小。隨著照射光子數的增加,冰晶中的產物會提供一氧化二氮冰晶分子不同的化學反應途徑導致耗散截面逐漸上升,而成冰溫度之所以會造成初始耗散截面受影響則是因為偶極矩的排列造成分子間的束縛能變化,造成較高成冰溫度下的冰晶具有較小的耗散截面的現象。

    ;In the low-temperature environment of dense molecular clouds, most molecules condense onto dust grains, forming interstellar ices. These Interstellar ices can undergo non-thermal desorption or chemical reactions when exposed to various energetic sources Nitrogen oxides are considered to be one of the precursor substances for the formation of amino acids. However, although over 200 different gaseous molecules have been detected in the cosmos, only six of them are nitrogen oxides, including dinitrogen monoxide (N2O). Yet, scientists have not detected dinitrogen monoxide molecules in interstellar ice, making the depletion mechanism of N2O ice an intriguing research topic.
    The primary objective of this study is to observe the depletion cross-section of N2O ice subjected to VUV irradiation and investigate the influence of ice formation temperature on them. The results reveal that the depletion cross-section of N2O ice is influenced by both the photo-products and the ice formation temperature. The depletion cross-section increases as the VUV photon fluence increases, and it becomes smaller at higher ice formation temperatures. As the photon fluence increases, the photo-products produce another chemical reaction pathway and lead to the depletion cross-section increases. And the temperature effect is believed to be due to the influence of the ice formation temperature on the alignment of dipole moments, resulting in changes in intermolecular binding energy, leading to smaller depletion cross-sections in N2O ice formed at higher temperatures.
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