Dephasing times of surface plasmon excitation in Au nanoparticles determined by persistent spectral hole burning

Ziegler T.; Hendrich C.; Hubenthal F.; Vartanyan T.; Trager F.

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Dephasing times of surface plasmon excitation in Au nanoparticles determined by persistent spectral hole burning

机译：持久光谱孔燃烧确定金纳米颗粒中表面等离激元激发的移相时间

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We have measured the dephasing time T-2 of surface plasmon excitation in oblate gold nanoparticles on sapphire substrates as a function of the particle size and shape. The influence of inhomogeneous line broadening was eliminated by applying the technique of persistent spectral hole burning. The obtained dephasing times vary between 9 and 15 fs depending on the particle shape and size. For the investigated nanoparticles with equivalent radii between 6 and 13 nm, a considerable deviation from bulk behavior, i.e., a higher damping as an influence of the reduced dimension of the nanoparticles was observed. The deviation from bulk behavior is ascribed to surface scattering of the oscillating conduction electrons. (C) 2004 Elsevier B.V. All rights reserved. [References: 30]

机译：我们已经测量了蓝宝石衬底上的扁金纳米颗粒中表面等离子体激元激发的移相时间T-2，该时间是颗粒大小和形状的函数。通过应用持久光谱空穴燃烧技术消除了不均匀线展宽的影响。取决于颗粒的形状和大小，获得的相移时间在9至15 fs之间变化。对于研究的等效半径在6到13 nm之间的纳米颗粒，观察到与本体行为的显着偏差，即观察到较高的阻尼，这是纳米颗粒尺寸减小的影响。与体行为的偏差归因于振荡的传导电子的表面散射。（C）2004 Elsevier B.V.保留所有权利。 [参考：30]

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《Chemical Physics Letters》 |2004年第6期|共6页
作者
Ziegler T.; Hendrich C.; Hubenthal F.; Vartanyan T.; Trager F.;
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Enhanced raman-scattering; Ultrafast electron dynamics; Metal nanoparticles; 2nd-harmonic generation; Single nanoparticles; Clusters; Resolution; Particles; Growth; Films;

机译：增强拉曼散射;超快电子动力学;金属纳米颗粒;二次谐波产生;单个纳米颗粒;团簇;分辨率;颗粒;生长;薄膜;

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1. Dephasing times of surface plasmon excitation in Au nanoparticles determined by persistent spectral hole burning [J] . Ziegler T., Hendrich C., Hubenthal F., Chemical Physics Letters . 2004,第4a6期

机译：持久光谱孔燃烧确定金纳米颗粒中表面等离激元激发的移相时间
2. Persistent spectral hole-burning in a Eu~(3+)-doped aluminosilicate glass from 8 to 295 K: Study o the burning and refilling kinetics, and of optical dephasing [J] . W. Beck, A. Ya. Karasik, J. Arvanitidis, The European physical journal, D. Atomic, molecular, and optical physics . 2000,第1期

机译：Eu〜（3+）掺杂的铝硅酸盐玻璃在8至295 K范围内的持久光谱空穴燃烧：研究燃烧和再填充动力学以及光学相移
3. High-temperature persistent spectral hole burning of Eu3+ ions in silicate glasses: new room-temperature hole-burning materials [J] . Fujita K., Hirao K., Soga N., Journal of the Optical Society of America, B. Optical Physics . 1998,第11期

机译：硅酸盐玻璃中Eu3 +离子的高温持久光谱空穴燃烧：新型室温空穴燃烧材料
4. Decay times of surface plasmon excitation in metal nanoparticles determined by laser-induced persistent spectral hole burning [C] . Stietz, F., Bosbach, . 2000

机译：激光诱导的持久光谱空穴燃烧法测定金属纳米粒子中表面等离子体激元激发的衰减时间
5. Excitation of surface plasmon polaritons by nano-hole and 2-D active optics by nano-hole arrays. [D] . Yin, Leilei. 2004

机译：纳米孔激发表面等离激元极化子，纳米孔阵列激发二维有源光学器件。
6. Manipulation of the dephasing time by strong coupling between localized and propagating surface plasmon modes [O] . Jinghuan Yang, Quan Sun, Kosei Ueno, -1

机译：通过局部和传播的表面等离子体激元模式之间的强耦合来控制移相时间
7. Effects of distribution of excitation energy transfer times and protein dynamics on spectral hole burning in pigment-protein complexes involved in photosynthesis [O] . Herascu Nicoleta 2013

机译：激发能传递时间分布和蛋白质动力学对参与光合作用的色素-蛋白质复合物中光谱孔燃烧的影响
8. Persistent Spectral Hole Burning Materials for Time-and- Frequency-Domain Optical Memories and Signal Processing [R] . Cone, R. L. 1998

机译：用于时域和频域光存储器和信号处理的持久光谱孔燃烧材料

Dephasing times of surface plasmon excitation in Au nanoparticles determined by persistent spectral hole burning

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