Linear and nonlinear optical properties of carbon nanotubes from first-principles calculations

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	Linear and nonlinear optical properties of carbon nanotubes from first-principles calculations
	Guo, GY ; Chu, KC ; Wang, DS ; Duan, CG
刊名	PHYSICAL REVIEW B
	2004
卷号	69 期号:20
关键词	AUGMENTED-WAVE METHOD 2ND-HARMONIC GENERATION MOLECULAR-DYNAMICS ODD-PERIOD GRAPHITE SEMICONDUCTORS SUPERLATTICES TRANSITIONS BEHAVIOR SPECTRA
ISSN号	1098-0121
通讯作者	Guo, GY: Natl Taiwan Univ, Dept Phys, Taipei 106, Taiwan.
中文摘要	A systematic ab initio study of the optical as well as structural and electronic properties of the carbon nanotubes within density-functional theory in the local-density approximation has been performed. Highly accurate full-potential projected augmented wave method was used. Specifically, the optical dielectric function epsilon and second-order optical susceptibility chi((2)) as well as the band structure of a number of the armchair [(3,3),(5,5),(10,10),(15,15),(20,20)], zigzag [(5,0),(10,0),(15,0),(20,0)] and chiral [(4,2),(6,2),(6,4),(8,4),(10,5)] carbon nanotubes have been calculated. The underlying atomic structure of the carbon nanotubes was determined theoretically. It is found that for the electric field parallel to the nanotube axis (Eparallel to(z) over cap), the absorptive part epsilon(') of the optical dielectric function for the small nanotubes (the diameter being smaller than, say, 25 Angstrom) in the low-energy range (0-8 eV) consists of a few distinct peaks. Furthermore, the energy position, the shape, and the number of the peaks depend rather strongly on the diameter and chirality. This suggests that one could use these distinct optical features to characterize the chirality and diameter of the grown nanotubes. In contrast, for the electric field perpendicular to the nanotube axis (Eperpendicular toz), the epsilon(') spectrum of all the nanotubes studied except the three 4 Angstrom nanotubes in the low-energy region is made up of a broad hump. The bandwidth of the hump increases with the nanotube diameter and the magnitude of the hump is in general about half of that of the epsilon(') for Eparallel to(z) over cap. Surprisingly, given their one-dimensional character, the optical anisotropy of the nanotubes is smaller than that of graphite. For the nanotubes with a moderate diameter (say, 30 Angstrom) such as the (20,20) nanotube, the optical anisotropy is not large and the epsilon(') spectrum for both electric-field polarizations becomes rather similar to that of graphite with electric-field parallel to the graphene layers (Eperpendicular toc). The calculated static polarizability alpha(0) for the semiconducting nanotubes is rather anisotropic with alpha(0) for Eparallel to(z) over cap being several times larger than that for Eperpendicular toz. For both electric-field polarizations, alpha(0) is nearly proportional to the square of the tube diameter. The calculated electron energy loss spectra of all the nanotubes studied here for both electric field polarizations are similar to that of Eperpendicular toc of graphite, being dominated by a broad (pi+sigma)-electron plasmon peak at near 27 eV and a small pi-electron plasmon peak at 5-7 eV. Only the chiral nanotubes would exhibit second-order nonlinear optical behavior. Furthermore, only two tensor elements chi(xyz)((2)) and chi(yzx)((2)) are possibly nonzero with chi(xyz)((2))=-chi(yzx)((2)). For all the chiral nanotubes studied here, both the real and imaginary parts of chi(xyz)((2))(-2omega,omega,omega) show an oscillatory behavior. The absolute value of chi(xyz)((2))(-2omega,omega,omega) of all the chiral nanotubes in the photon energy range of 0.1-3.0 eV is huge, being up to ten times larger than that of GaAs, suggesting that chiral nanotubes have potential applications in nonlinear optics, e.g., second-harmonic generation and sum-frequency generation. Nevertheless, the static value of both chi(xyz)((2)) and chi(yzx)((2)) is zero.
收录类别	SCI
语种	英语
公开日期	2013-09-18
内容类型	期刊论文
源URL	[http://ir.iphy.ac.cn/handle/311004/40870]
专题	物理研究所_物理所公开发表论文_物理所公开发表论文_期刊论文
推荐引用方式 GB/T 7714	Guo, GY,Chu, KC,Wang, DS,et al. Linear and nonlinear optical properties of carbon nanotubes from first-principles calculations[J]. PHYSICAL REVIEW B,2004,69(20).
APA	Guo, GY,Chu, KC,Wang, DS,&Duan, CG.(2004).Linear and nonlinear optical properties of carbon nanotubes from first-principles calculations.PHYSICAL REVIEW B,69(20).
MLA	Guo, GY,et al."Linear and nonlinear optical properties of carbon nanotubes from first-principles calculations".PHYSICAL REVIEW B 69.20(2004).