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Explaining the Temperature Dependence of Spirilloxanthin’sS* Signal by an Inhomogeneous Ground State Model

机译：解释螺旋藻黄质的温度依赖性非均匀基态模型的S *信号

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摘要

We investigate the nature of the S* excited state in carotenoids by performing a series of pump–probe experiments with sub-20 fs time resolution on spirilloxanthin in a polymethyl-methacrylate matrix varying the sample temperature. Following photoexcitation, we observe sub-200 fs internal conversion of the bright S2 state into the lower-lying S1 and S* states, which in turn relax to the ground state on a picosecond time scale. Upon cooling down the sample to 77 K, we observe a systematic decrease of the S*/S1 ratio. This result can be explained by assuming two thermally populated ground state isomers. The higher lying one generates the S* state, which can then be effectively frozen out by cooling. These findings are supported by quantum chemical modeling and provide strong evidence for the existence and importance of ground state isomers in the photophysics of carotenoids.

机译：我们通过对螺旋藻黄质在聚甲基丙烯酸甲酯基质中改变样品温度进行20 s以下时间分辨率的一系列泵浦-探针实验，研究了类胡萝卜素中S *激发态的性质。在光激发之后，我们观察到在明亮的S2状态到较低的S1和S *状态在不到200 fs的内部转换，这些状态又在皮秒级的时间内松弛到基态。将样品冷却至77 K后，我们观察到S * / S1比值的系统降低。可以通过假设两个热填充基态异构体来解释该结果。较高的一个会生成S *状态，然后可以通过冷却将其有效冻结。这些发现得到了量子化学建模的支持，并为类胡萝卜素的光物理中基态异构体的存在和重要性提供了有力的证据。

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期刊名称 ACS AuthorChoice
作者
J. Hauer; ⊥; M. Maiuri; ⊥; D. Viola; V. Lukes; S. Henry; A. M. Carey; R. J. Cogdell; G. Cerullo; D. Polli; *;
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年(卷),期 -1(117),29
年度 -1
页码 6303–6310
总页数 8
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1. Explaining the temperature dependence of Spirilloxanthin's S* signal by an inhomogeneous ground state model [J] . Hauer J., Maiuri M., Viola D., The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2013,第29期

机译：用非均质基态模型解释螺旋藻黄质S *信号的温度依赖性
2. CALCULATION OF THE TEMPERATURE OF FROZEN GROUND ON THE BASIS OF MATHEMATICAL MODELS OF THE TEMPERATURE DEPENDENCE OF GROUND PENETRATING RADAR SIGNALS [J] . L. G. Neradovskii Measurement techniques . 2011,第8期

机译：基于地面穿透雷达信号温度相关性的数学模型计算冻结地面温度
3. Erroneous Arrhenius: Modified Arrhenius Model Best Explains the Temperature Dependence of Ectotherm Fitness [J] . Knies Jennifer L., Kingsolver Joel G. . The American Naturalist: Devoted to the Conceptual Unification of the Biological Sciences . 2010,第2期

机译：错误的Arrhenius：改良的Arrhenius模型最好地解释了等温适度的温度依赖性
4. Auger Recombination is NOT necessary to explain the temperature dependence of threshold in p-doped quantum dot lasers [C] . P. M. Smowton, I. C. Sandall, J. D. Thomson, IEEE International Semiconductor Laser Conference . 2006

机译：在P掺杂量子点激光器中解释阈值的温度依赖性是不需要螺旋钻重组
5. Reaction kinetics of food stability: Comparison of glass transition and classical models for temperature and moisture dependence [D] . Nelson, Katherine A. 1993

机译：食品稳定性的反应动力学：玻璃化转变与温度和湿度依赖性经典模型的比较
6. Erroneous Arrhenius: Modified Arrhenius model best explains the temperature dependence of ectotherm fitness [O] . Jennifer L. Knies, Joel G. Kingsolver -1

机译：错误的Arrhenius：改进的Arrhenius模型最能解释异调健身的温度依赖性
7. Explaining the Temperature Dependence of Spirilloxanthin’s S* Signal by an Inhomogeneous Ground State Model [O] . J. Hauer, M. Maiuri, D. Viola, 2013

机译：通过非均质基态模型解释螺旋藻黄质的S *信号的温度依赖性

Explaining the Temperature Dependence of Spirilloxanthin’sS* Signal by an Inhomogeneous Ground State Model

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