References
Chen Chuangtian, An anionic group theory of the electrooptic and the nonlinear optical effect in crystals I, Calculation of the electrmptic and the frequency multiplication coefficient using a distorted oxygen octahedron model,Acta Physica Sinica (in Chinese), 1976, 25: 146.
Chen Chuangtian, An anionic group theory of the electrooptic and nonlinear optical effects in crystals ll. Calculation of the frequency multiplication coefficient of α-LiIO3 crystal using molecular orbital of the (IO3)- anionic group,Acta Physica Sinica (in Chinese). 1977, 2: 124.
Chen Chuangtian, An anionic group theory of the electrooptic and the nonlinear optical effect in crystals III, Calculation of the electrwptic and the frequency multiplication coefficients of LiNbO3, LiTaO3, KNbO3 and BNN, using a distorted oxygen octahedron anionic model,Acta Physica Sinica (in Chinese), 1997, 26: 486.
Chen Chuangtian, An anionic group theory for the electrooptic and the nonlinear optical effects in oxide-type crystals,Scientia Sinica (in Chinese), 1977, 579.
Chen Chuangtian, A localized quantum theoretical treatment, based on an anionic coordination polyhedron model for the EO and SHG effects in crystals of the mixed-oxide types,Scientia Sinica, 1979, 22: 756.
Chen Chuangtian, Chen Xiaochen, A general transformation formula for frequency-doubling coefficients of crystals and ionic groups,Acta Physica Sinica (in Chinese), 1980 29: 1000.
Chen Chuangtian, Chen Xiaochen, Shen Hesheng, Calculation of frequency multiplication coefficient of the NaNO2 crystal using the CNDO/S type approximate method,Acta Physica Sinica, 1981. 30: 715.
Southgate, P. D., Hall, D. S., Anomalously high nonlinear optical effects in m-nitroaniline.Appl. Phys. Lett., 1971, 18: 456.
Oudar, J. L., Hierle, R., An efficient organic crystal for nonlinear optics: methyl-(2,4-dinitrophenyl)-aminopropanoate,J. Appl. Phys., 1997, 48: 2–699.
Ito, K., Nonlinear optical property of NaNO2, Second harmonic generation at room temperature,J. Phys. Soc. Japan, 1973, 34: 138.
Bokii, G. B.. Kravchenko, V. G., Chemical classification of borates,J. Structural Chemistry (inRussian), 1996, 7: 920.
Mighell, A. D., Peilott, A., Blook, S., The crystal structure of the high temperature form of barium borate BaO-B2O3,Acta Cryst., 1996, 20: 819.
Hubner, K. H., Über die Borate 2BaO · 5B2O3, Tief-BaO · B2O3, 2BaO · B2O3 und 4BaO-B2O3,Neues Jahrb Mineral Monatsch, 1969: 335.
Huang Qingzhen, Liang Jinkui, A study on the growth of the low-temperature phase monocrystal BaB2O4 and the related phase diagram,Acta Physica, 1981, 30: 559.
Liang Jingkui, Zhang Yuling, Huang Qingzhen, Dynamics of phase transformation of BaB2O4,Acta Chimia, 1982, 40: 994.
Lu Shaofang, He Meiyun, Huang Jinling, The crystal structure of barium metaborate,Acta Physica, 1982, 31: 948.
Liebirtz, J., Stähr, S., Zur tief Temperatur Phase von BaB2O4,Z. Kristallogr., 1983, 165: 91
Fröhlich, F., Crystal structure of the lowtemperature form of BaB2O4,Z. Kristallogr., 1984, 168: 109.
Jiang Aidong, Chen Fen, Lin Qi, Monofrystals of low temperature phase barium metaborate (α-Ba2O4) grown by the method of flux growth,Artificial Crystal (in Chinese), 1986, 15: 103.
Jiang Aidong, Cheng Fen, Lin Qiet al., Flux growth of large single crystals of low temperature phase barium metaborate.J. Cryst. Growth, 1986, 79: 963.
Chen Chuangtian, Wu Baichang, Jiang Aidonget al., The optical properties and growth of new ultraviolet frequency multiplication monocrystal α-BaB2O4,Scientia Sinica (in Chinese), Ser. B, 1984, 28(7): 598.
Li Rukang, Chen Chuangtian, Calculation of the frequency doubling coefficient of low temperature phase barium metaborate (α-BaB2O4) crystal,Acta Physica (in Chinese), 1985, 34: 823.
Chen Chuang-tian, Wu Yi-cheng, Li Ru-kang, The relationship between the structural type of anionic group and the SHG effect in boron-oxygen compounds,Chrnese Phys. Lett., 1985, 2: 389.
Cheng, W. D., Chen, J. T., Huang, J. S.et al., Theoretical studies of the electronic structures and the linear and nonlinear optics of K3-xLi2+xNb5O15 withx = 0 andx = 1,Chem. Phys. Lett., 1996, 216: 66.
Cheng, W. D., Chen, J. T., Huang, J. S.et al., Electronic structures and optical properties of LiB3O5, Li2B4O7 and KBe2BO3F2,J. Chem. Soc., Faraday Trans., 1996, 92: 5–073.
Cheng Wendan, Lu Jiaxi, Theory of the cluster model and its applications,Chinese Science Bulletin (in Chinese), 1997. 42 (6): 606.
Cheng Wendan, Lu Jiaxi, The second-order nonlinear optical materials in inoganic borate system,Structural Chemistry (in Chinese), 1997, 16: 81
Lu Jiaxi, A preliminary study on the nature of quasi-aromaticity of the nonplanar cluster rings in some [Mo3S4]4+ clusters compounds,Structural Chemistry (in Chinese), 1989, 8: 327.
Lu Jia-xi, Chen Zhi-da, Nod quasi-aromatic transition metal cluster compounds,Internat. Rev. Phys. Chem., 1994, 13: 85.
Lu Jiaxi,Some Aspects of the Cluster Chemistry of the Transition Metal Elements (in Chinese), Chap. 4, Fuzhou: Fuzhou Science and Technology Press, 1997.
Wells, A. F.,Structural Inorganic Chemistry, 5th ed., Oxford: Clarendon Press, 1984, 1071
Köning, V. H., Hoppe, R., Zur Kenntnis von LiB3O5,Z. anorg. allg. Chem., 1978, 439: 71.
Krogh-Moe, J., The crystal structure of cesium triborate Cs2O · 3B2O3,Acta Cryst., 1960, 13: 889.
Mori, Y., Kuroda, L., Nakajima, S.et al., A new nonlinear optical crystal: cesium lithium borate.Appl. Phys. Lett., 1995, 67: 1–818.
Author information
Authors and Affiliations
Additional information
Former director of the FIRSM
About this article
Cite this article
Lu, J., Wu, X., Chen, C. et al. Discovery of the low temperature phase barium metaborate (BBO) and its significance in the search for new type nonlinear optical materials. Chin.Sci.Bull. 42, 1233–1240 (1997). https://doi.org/10.1007/BF02882747
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF02882747