Excited-state absorption cross-section of C60

机译：C60的激发态吸收截面

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Abstract: We use a pump-probe technique to measure the change in optical transmission through a 1 cm C$-60$//benzene (0.58 g/l) solution caused by a 532 nm 25 ps `pump' pulse having fluence up to approximately 10 mJ/cm$+2$/. Temporal dependence indicates that transmission drops within the pump pulse width and stays at the reduced level up to our maximum delay time (approximately 10 ns). If we use the standard three-level model for the C$-60$/ molecule we deduce that either the excited-singlet-to-triplet crossing happens faster than our pulse width or the two states have indistinguishable absorption cross-sections ($sigma$-S$/ $APEQ $sigma$- T$/) at our laser wavelength. We believe that the latter assumption is more probable, and interpret our data by a simple two-cross-section ($sigma$-O$/, $sigma$-T$/) model. We find that the difference $sigma$-T$/ - $sigma$-O$/ is (3.5 $POM 0.2) $MUL 10$+$MIN@17$/ cm$+2$/. We measure the ground state absorption cross-section $sigma$-O$/ to be (3.5 $POM 0.3) $MUL 10$+$MIN@18$/ cm$+2$/ in an independent experiment. !23

机译：摘要：我们使用泵浦探针技术来测量由532 nm 25 ps的“泵浦”脉冲产生的通量达1 cm C $ -60 $ //苯（0.58 g / l）溶液引起的光传输变化。大约10 mJ / cm $ + 2 $ /。时间相关性表明传输下降到泵浦脉冲宽度之内，并一直保持降低的水平，直到我们的最大延迟时间（大约10 ns）。如果我们对C $ -60 $ /分子使用标准的三级模型，我们可以得出推论：激发-单峰到三重峰的交叉发生的速度快于我们的脉冲宽度，或者两个状态的吸收截面难以区分（$ sigma $ -S $ / $ APEQ $ sigma $-T $ /）在我们的激光波长下。我们认为，后一种假设更有可能，并通过简单的两个横截面（$ sigma $ -O $ /，$ sigma $ -T $ /）模型来解释我们的数据。我们发现差异$ sigma $ -T $ /-$ sigma $ -O $ /是（3.5 $ POM 0.2）$ MUL 10 $ + $ MIN @ 17 $ / cm $ + 2 $ /。在独立的实验中，我们测量的基态吸收截面$ sigma $ -O $ /为（3.5 $ POM 0.3）$ MUL 10 $ + $ MIN @ 18 $ / cm $ + 2 $ /。！23

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《Organic, Metallo-Organic, and Polymeric Materials for Nonlinear Optical Applications》|1994年|p.272-280|共9页
会议地点 Los Angeles CA(US)
作者
Nansheng Tang; Univ. of Southern California; Oceanside; CA; USA; H.Guan; Univ. of Southern California; Los Angeles; CA; USA; Jouni P. Partanen; Univ. of Southern California; Los Angeles; CA; USA; Robert W. Hellwarth; Univ. of Southern California; Los Ange;
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中图分类无线电电子学、电信技术;
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3. IR Absorptions of C60~+ and C60~- in neon matrixes (Conference Paper) [J] . Kern B., Strelnikov D., Weis P., The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2013,第34期

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4. Excited-state absorption cross-section of C60 [C] . Nansheng Tang, H.Guan Univ. of Southern California Los Angeles CA USA, Jouni P. Partanen, Conference on organic, metallo-organic, and polymeric materials for nonlinear optical applications . 1994

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Excited-state absorption cross-section of C60

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