Paper Titles

Linear and Non-Linear Optical Phenomena of Glasses (Photonics-Photo Chromic-Electro and Magneto Optics): A Review
p.1

Luminescence and Time-Resolved Emission Spectra of Nd³⁺and Er³⁺: Silver Zinc Borate Glasses
p.37

Spectral Features of Lead Arsenate Glasses Doped with Copper Oxide
p.55

Dielectric Studies on Alkali Borate Glasses Mixed with Iron Oxide
p.69

Treatment of a Large Cystic Lesion in Anterior Maxilla Using Glass Reinforced Hydroxyapatite – A Case Report
p.97

Guided Bone Regeneration Using Glass-Reinforced Hydroxyapatite and Collagen Membrane in the Treatment of Peri-Implantitis
p.109

HomeSolid State PhenomenaSolid State Phenomena Vol. 207Linear and Non-Linear Optical Phenomena of Glasses...

Linear and Non-Linear Optical Phenomena of Glasses (Photonics-Photo Chromic-Electro and Magneto Optics): A Review

Article Preview

Abstract:

The linear and non-linear properties of material have gained in both scientific interest and technological importance. Over the last few years, there has been much interest in developing materials with large nonlinearities in order to exploit their potential for use in ultrafast nonlinear optical devices. The different factors that play a role for controlling the refractive indices such as density, molar refraction, photon energy, coordination number, electronic polarizability, field strength of cations, bridging and nonbridging oxygen, and optical basicity are discussed in accordance with the obtained linear refractive index data. The nonlinear phenomena which include intensity dependent on refractive index, excitation energy, dispersion energy, optical energy, metallization criterion, second and third harmonic generations have been discussed. Finally, the optical application, viz. photonics, electro-optics, photo chromic and magneto-optics of the material have been studied. Keywords: Glass; linear; nonlinear indices; optical application

You might also be interested in these eBooks

Glass Science and its Applications - II

Info:

Periodical:

Solid State Phenomena (Volume 207)

Pages:

1-35

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.207.1

Citation:

Cite this paper

Online since:

September 2013

Authors:

Yousef El Sayed Said

Keywords:

Glass, Linear, Nonlinear Indices, Optical Application

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

[1] E. M. Vogel, M. J. Weber, D. M. Krol, Phys. Chem. Glass, 32 (1991) 231.

[2] R. El Mallawany, "Handbook of tellurite glasses & Data", CRC Press, 2002.

[3] T. Topfer, J. Hein, J. Philipps, D. Ehrt, R. Sauerbrey. Appl. Phys. B 71 (2000) 203.

[4] G. Senthil Murugan, K. B. R. Varma, J. Non-Cryst. Solids 279 (2001) 1.

[5] Y. Tokuda, M. Saito, M. Takahashi, K. Yamada, W. Watanabe, K. Itoh, T. Yoko, J. Non- Cryst. Solids 326& 327 (2003) 472.

DOI: 10.1016/s0022-3093(03)00455-1

[6] H. Takebe, S. Fujino, K. Morinaga, J. Am. Ceram. Soc. 77 (1994) 2455.

[7] S. Hoon Kim, T. Yoko, S. Sakka, J. Am. Ceram. Soc. 76 (1993) 2486.

[8] R El Mallawnay, J. Appl. Phys, 72 [5] (1992) 1774.

[9] S. Hoon Kim, T. Yoko, J. Am. Ceram 78 (1995) 2486.

[10] S. Al- Ani, C., Hogarth, J. Matter Sci., Lett. 6 (1987) 519.

[11] M. Abdel Baki, F. A. Abdel Wahab, A. Radi, F. El Diasty, J. Phys.& Chem. of Soilds 68 (2007) 1457.

DOI: 10.1016/j.jpcs.2007.03.026

[12] H. Burger, W. Vogel, V. Kozhukharov, Infrared Phys. 25 (1985) 395.

[13] E. Yousef, M. Hotzel, C. Russel, J. Non-Cryst. Solids 342 (2004) 82.

[14] W. Vogel, "Glass Chemistry", Springer, Berlin, Heidelberg, New York, 1994.

[15] R. Uhlman and J. Kreidl, "Optical Properties of Glass", published by the American Ceramic Society Inc. Wester Ville OH, (1991).

[16] V. Dimitrov, S. Sakka, J. Appl. Phys. 79 (1996) 1736.

[17] V. Dimitrov, T. Komatsu, J. Non-Cryst. Solids 249 (1999)) 160.

[18] T. Honna, Y. Benino, T. Fujiwara, T. Komatsu, R. Sato, V. Dimitrov, J. Appl. Phys. 91 (2002) 2942.

[19] V. Dimitrov, T. Komatsu, J. Solids State Chem. 163 (2002) 100.

[20] J. A. Duffy, J. Non-Cryst Solids 109 (1989)

[21] J. A. Duffy, Geochnica&Cosmochimia Acta, 57 (1993) 3961.

[22] J. A. Duffy and M. D. Ingram, J. Non-Cryst. Solids 21 (1976) 373.

[23] R. R. Reddy, Y. Ahammed, P. A. Azeem, K. R. Gopa, T. Rao, J. Non-Cryst. Solids 286 (2001) 169.

[24] E. W. Van Stryland, L. L. Chase, "Handbook of laser Science and Technology", CRC Press, Boca Raton, Fl. (1995).

[25] M. D. O'Donnel, PhD Thesis, submitted by the university of Nottingham, UK, (2003).

[26] M. D. O_Donnell, C.A. Miller, D. Furniss, V.K. Tikhomirov, A.B. Seddon , J. Non- Cryst. Solids, 331 (2003) 48.

[27] Y. Tokuda, M. Saito, M. Takahashi, K. Yamada, W. Watanabe, K. Itoh, T. Yoko, J. Non- Cryst. Solids, 326&327 (2003) 472.

DOI: 10.1016/s0022-3093(03)00455-1

[28] R. G. Duncan, MSc thesis in Electrical Engineering, submitted by Virgina Polytechnic Institute, USA.

[29] S. L. Gomez, F. L. S. Cuppo, and A. M. Figueriredo Neto, Bra. J. Phys., 33 (2003) 813.

[30] N. F. Borrelli, B. G. Aitken, M. A. Newhouse, and D. W. Hall, J. Appl. Phys. 70 (1991) 1.

[31] S. Lettieri and P. Maddalena, J. Appl. Phys., 91 (2002) 5564.

[32] Jisoo Hwang, J. W. Wu, Optics Communications, 281 (2008) 1625.

[33] I. V. Kityk, B. Sahraoui, Journal of Chemical Physics, Volume 114, Issue 18, pp.8105-8112 (2001).

[34] F. Gan, L. Xu, " Photonic glass" Fudan University, China, (2006).

[35] A. Zakery, S. R. Elliott, J. Non- Cryst. Solids 330 (2003) 1.

[36] I. C. S. Carvalho, M. Fakine, C. M. B. Cordeiro, Helio Carvalho, R. Kashyap, J. Optical Materials, In press (2008).

[37] M. Ferraris, D. Milanese, Y. Menke, Q. Chen, M. Chiese, E. Giamello, J. Non Cryst. Solids 352 (2006) 2267.

[38] C. Quemard, F. Smektala, V. Couderc, A. Barthelemy, J. Lucas, J. of Phys. and Chem. of Solids 62 (2001) 1435.

[39] Y. Xu, H. Zeng, G. Yang, G. Chen, Q. Zhang, L. Xu, In press, (2008)

[40] L. Petit, N. Carlie, A. Aumeau, G. Boudebs, H. Jain, A. C. Miller, K. Richardso, Materials Research Bulletin 42 (2007) 2107.

[41] H. Guo, H. Tao, S. Gu, X. Zheng, Y. Zhai, S. Chu, X. Zhao, S. Wang, O. Gong, J. of Solid State Chemistry 180 (2007) 135.

[42] G. Senthil Murugan, Y. Ohishi, J. Non-Cryts. Solids, 351 (2005) 634.

[43] A. Anan'ev, G. Karapetyan, A. Lipovski, L. Maksimov, V. Polukhin, D. Tagantsev, B. Tatarintsev, A. Vetrov, O. Yanush, J. Non-Cryst. Solids, 351 (2005) 1046.

DOI: 10.1016/j.jnoncrysol.2005.01.016

[44] M. D. O' Donnell, K. Richardson, R. Stolen, A. B. Seddon, D. Furnis, V. K. Tikhomiror, C. Rivero, M. Ramme, R. Stegeman, G. Stegeman, M. Couzi, T. Cardinal, J. Am. Ceram. Soc., 90 (2007) 1448.

DOI: 10.1111/j.1551-2916.2007.01574.x

[45] K. Hirao, S. Kishimato, K. Tanka, S. Tanab, N. Soga, J. Non-Cryst. Solids, 139 (1992) 151.

[46] W. Romanowski, S. Golab, L. Cichosz, B. Trazebitowska, J. Non-Cryst. Solids, 105 (1988) 295.

[47] L. Lombard, A. Brignon, J. P. Huignard, E. Lallier, P. Georges, G. L. Leclin, G. Pauliat, G. Roosen, J. C. R. Physique 8 (2007) 234.

DOI: 10.1016/j.crhy.2006.07.016

[48] A A. Lipovskii, D. K. Tangantsev, B. V. Tatarintsev, A. A. Vetrov, J. Non-Cryst. Solids 318 (2003) 268.

[49] Z. J. Keiss, IEEE Journal of quantum Electronics, 1 (1969) 12.

[50] G. Poirier, M. Nalin, Y. Messaddeq, S. J. L. Ribeiro, Solid State Ionices 178 (2007) 871.

[51] V. A. Reznikov, L. E. Solov'ev, V. E. Kholmogorov, Technical Phys. 44 (1999) 562.

[52] J.P. Dewitz, W. Hübner Appl. Phys. B 68 (1999) 491.

[53] I. A. Grishin, V. A. Gur'ev, E. B. Intyushin, Yu. E. Elliev, O. V. Pavlova, and A. P. Savikin Russian Journal of Applied Chemistry, 77 (2004) 1245, Translated from Zhurnal Prikladnoi Khimii, Vol. 77 (2004) 1262.

DOI: 10.1007/s11167-005-0007-7

[54] N. V. Ovcharenko, T V. Smirnova, J. Non-Cryst. Solids 291 (2001) 121.