Electronic and vibrational linear and nonlinear polarizabilities of Li@C_(60) and [Li@C_(60)]~+

Reis H.; Loboda O.; Avramopoulos A.; Papadopoulos M.G.; Kirtman B.; Luis J.M.; Zale?ny R.

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Electronic and vibrational linear and nonlinear polarizabilities of Li@C_(60) and [Li@C_(60)]~+

机译：Li @ C_（60）和[Li @ C_（60）]〜+的电子和振动线性和非线性极化率

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Electronic and vibrational nuclear relaxation (NR) contributions to the dipole (hyper)polarizabilities of the endohedral fullerene Li@C_(60) and its monovalent cation [Li@C_(60)]~+ are calculated at the (U)B3LYP level. Many results are new, while others differ significantly from those reported previously using more approximate methods. The properties are compared with those of the corresponding hypothetical noninteracting systems with a valence electron transferred from Li to the cage. Whereas the NR contribution to the static linear polarizabilities is small in comparison with the corresponding electronic property, the opposite is true for the static hyperpolarizabilities. A relatively small, but non-negligible, NR contribution to the dc-Pockels effect is obtained in the infinite frequency approximation.

机译：电子和振动核弛豫（NR）对内面富勒烯Li @ C_（60）及其单价阳离子[Li @ C_（60）]〜+的偶极（超）极化率的贡献是在（U）B3LYP水平下计算的。许多结果是新的，而其他结果则与以前使用更近似的方法报告的结果大不相同。将这些性质与相应的假设非相互作用系统的性质进行比较，其中价电子从Li转移到笼中。尽管与相应的电子特性相比，NR对静态线性极化率的贡献很小，但静态超极化率却相反。在无穷大的频率逼近中，可以获得相对较小但不可忽略的NR对dc-Pockels效应的贡献。

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《Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological》 |2011年第5期|共7页
作者
Reis H.; Loboda O.; Avramopoulos A.; Papadopoulos M.G.; Kirtman B.; Luis J.M.; Zale?ny R.;
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正文语种 eng
中图分类化学;
关键词
endohedral fullereness; nonlinear optical properties; vibrational contributions;

机译：内膜富勒度;非线性光学性能;振动贡献;

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1. Electronic and vibrational linear and nonlinear polarizabilities of Li@C_(60) and [Li@C_(60)]~+ [J] . Reis H., Loboda O., Avramopoulos A., Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological . 2011,第5期

机译：Li @ C_（60）和[Li @ C_（60）]〜+的电子和振动线性和非线性极化率
2. Structures and nonlinear optical properties of the endohedral metallofullerene-superhalogen compounds Li@C_(60)-BX4 (X = F, Cl, Br) [J] . Shu-Jian Wang, Ying Li, Yin-Feng Wang Physical chemistry chemical physics: PCCP . 2013,第31期

机译：内表面金属富勒烯-超卤素化合物Li @ C_（60）-BX4（X = F，Cl，Br）的结构和非线性光学性质
3. ELECTRONIC PROPERTIES OF THIN FILMSSUBLIMED FROM La@C_(82)AND Li@C_(60) [J] . V. N. POPOK, A. V. GROMOV, M. JONSSON, Nano: brief reports and reviews . 2008,第3期

机译：La @ C_（82）和Li @ C_（60）薄膜的电子性质
4. IR SPECTROSCOPY INVESTIGATION OF PURIFIED ENDOHEDRAL Li@C_(60) AND Li@C_(70) [C] . Andrei Gromov, Andreas Lassesson, Martin Joensson, International Symposium on Fullerenes, Nanotubes, and Carbon Nanoclusters, May 12-17, 2002, Philadelphia . 2002

机译：纯化内膜Li @ C_（60）和Li @ C_（70）的红外光谱研究
5. Nonlinear circuits with quasi-Yagi antennas for 60 GHz wireless applications. [D] . Sironen, Mikko Jaakko. 2002

机译：用于60 GHz无线应用的带有准八木天线的非线性电路。
6. A 0.0014 mm2 150 nW CMOS Temperature Sensor with Nonlinearity Characterization and Calibration for the −60 to +40 °C Measurement Range [O] . Wendi Yang, Hanjun Jiang, Zhihua Wang 2019

机译：0.0014 mm2 150 nW CMOS温度传感器具有−60至+40°C测量范围的非线性特性和校准
7. Electronic and vibrational linear and nonlinear polarizabilities of Li@C60 and Li@C60+ [O] . H. Reis, O. Loboda, A. Avramopoulos, 2010

机译：Li @ C60的电子和振动线性和非线性偏振性和LI @ C60 +
8. Linear and Nonlinear Aspects of the Tropical 30-60 Day Oscillation: A Modeling [R] . Stevens, D. E., Stephens, G. L. 1991

机译：热带30-60天振荡的线性和非线性方面：一个模型

Electronic and vibrational linear and nonlinear polarizabilities of Li@C_(60) and [Li@C_(60)]~+

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