The theoretical studies on the two-photon absorption properties of symmetric 1,4-bis{2-[4-(2-aryl)phenyl]vinyl}-2,5-bisdialkoxybenzenes

doi:10.1088/1674-1056/19/8/083102

Abstract On the level of the time-dependent hybrid density functional theory, the one- and two-photon absorption properties of a series of symmetric 4-bis 2-[4-(2-ary12) phenyl]vinyl-2,5-bisdialkoxybenzenes are studied respectively utilizing the analytic response theory and the few-state model methods. The calculated results show that the planarity of the geometrical structure plays a great role in enhancing the linear and nonlinear optical abilities of the molecule. However the effect of the length of the chain linked to the $\pi$-centre on the optical property is very little. For the investigated compounds, the A–$\pi$–A type charge-transfer molecules display more superior one- and two-photon absorption characteristics than the D–$\pi$–D type ones. Furthermore, the two-photon absorption results by use of few-state model are generally consistent with those by analytic response theory, demonstrating the reliability of the few-state model for evaluating the two-photon absorption cross section. The numerical simulations are in good agreement in tendency with the available experimental measurements.

Keywords: two-photon absorption analytic response theory few-state model

Received: 01 December 2009
Revised: 24 December 2009
Accepted manuscript online:

PACS:	33.80.-b	(Photon interactions with molecules)
	31.15.E-
	34.70.+e	(Charge transfer)

Fund: Project supported by the State Key Development Program for Basic Research of China (Grant No. 2006CB806000), the Open Fund of the State Key Laboratory of High Field Laser Physics (Shanghai Institute of Optics and Fine Mechanics), Higher Educational Science and Technology Program of Shandong Province (Grant No. J09LA13).

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Sun Yuan-Hong(孙元红), Li Long-He(李龙禾), Li Jing(李晶), and Wang Chuan-Kui(王传奎) The theoretical studies on the two-photon absorption properties of symmetric 1,4-bis{2-[4-(2-aryl)phenyl]vinyl}-2,5-bisdialkoxybenzenes 2010 Chin. Phys. B 19 083102

[1]	G"oppert-Mayer M 1931 Ann. Phys. 9 273
[2]	Kaiser W and Garrett C G B 1961 Phys. Rev. Lett. 7 229
[3]	He G S, Tan L S, Zheng Q D and Prasad P N 2008 Chem. Rev. 108 1245
[4]	Denk W, Strickler J H and Webb W W 1990 Science 248 73
[5]	Lin Z Y, Fu Z, Liu L X, Hu T, Qu J L, Guo B P and Niu H B 2006 Acta Phys. Sin. 55 6701 (in Chinese)
[6]	K"ohler R H, Cao J, Zipfel W R, Webb W W and Hansen M R 1997 Science 276 2039
[7]	Tutt L W and Kost A 1992 Nature 356 225
[8]	Belfield K D, Ren X B, Van Stryland E W, Hagan D J, Dubikovsky V and Miesak E J J 2000 Am. Chem. Soc. 122 1217
[9]	He G S, Markowicz P P, Lin T C and Prasad P N 2002 Nature 415 767
[10]	Cumpston B H, Ananthavel S P, Barlow S, Dyer D L, Ehrlich J E, Erskine L L, Heikal A A, Kuebler S M, Lee I Y, McCord-Maughon D, Qin J Q, R"ockel H, Rumi M, Wu X L, Marder S R and Perry J W 1999 Nature 398 51
[11]	Wang C K, Macak P and Luo Y and AAgren H 2001 J. Chem. Phys. 114 9813
[12]	Zhou W H, Kuebler S M, Braun K L, Yu T Y, Cammack J K, Ober C K, Perry J W and Marder S R 2002 Science 296 1106
[13]	Yan Y X, Tao X T, Sun Y H, Xu G B, Wang C K, Yang J X, Zhao X, Wu Y Z, Ren Y and Jiang M H 2005 Mater. Chem. Phys. 90 139
[14]	Seo J W, Jang S Y, Kim D H and Kim H J 2008 Tetrahedron 64 2733
[15]	Zhao Y, Ren A M, Feng J K and Sun C C 2008 J. Chem. Phys. 129 014301
[16]	Li W C, Feng J K, Ren A M, Zhang X B and Sun C C 2009 Chin. Phys. B 18 2271
[17]	Huang X M, Tao L M, Guo Y H, Gao Y and Wang C K 2007 Acta Phys. Sin. 56 2570 (in Chinese)
[18]	Collings J C, Poon S T, Droumaguet C L, Charlot M, Katan C, Paalsson L O, Beeby A, Mosely J A, Kaiser H M, Kaufmann D, Wong W Y, Blanchard-Desce M and Marder T B 2009 Chem. Eur. J. 15 198
[19]	Salek P, Vahtras O, Guo J D, Luo Y, Helgaker T and AAgren H 2003 Chem. Phys. Lett. 374 446
[20]	Yan Y X, Tao X T, Sun Y H, Wang C K, Xu G B, Yu W T, Zhao H P, Yang J X, Yu X Q, Wu Y Z, Zhao X and Jiang M H 2005 New J. Chem. 29 479
[21]	Monson P R and McClain W M 1970 J. Chem. Phys. 53 29
[22]	Albota M, Beijonne D, Br'edas J L, Ehrlich J E, Fu J, Heikal A A, Hess S E, Kogej T, Levin M D, Marder S R, McCord-Maughon D, Perry J W, Rockel H, Rumi M, Subramaniam G, Webb W W, Wu X and Xu C 1998 Science 281 1653
[23]	Olsen J and Jorgensen P 1985 J. Chem. Phys. 82 3235
[24]	Zhao K, Ferrighi L, Frediani L, Wang C K and Luo Y 2007 J. Chem. Phys. 126 204509
[25]	Masunov A and Tretiak S 2004 J. Phys. Chem. B 108 899
[26]	Sun Y H, Zhao K, Wang C K, Luo Y, Yan Y X, Tao X T and Jiang M H 2005 Chin. Phys. 14 115
[27]	Guo Y H, Sun Y H, Tao L M, Zhao K and Wang C K 2005 Chin. Phys. 14 2202
[28]	Sun Y H, Zhao K, Wang C K, Luo Y, Yan Y X, Tao X T and Jiang M H 2004 Chem. Phys. Lett. 394 176
[29]	Tao L M, Guo Y H, Huang X M and Wang C K 2006 Chem. Phys. Lett. 425 10
[30]	Sun Y H and Wang C K 2009 Acta Phys. Sin. 58 5304 (in Chinese)
[31]	Li J, Sun Y P, Li Z L, Song X N and Wang C K 2008 Chem. Phys. Lett. 464 9

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The theoretical studies on the two-photon absorption properties of symmetric 1,4-bis{2-[4-(2-aryl)phenyl]vinyl}-2,5-bisdialkoxybenzenes

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