[1] Zverev P G, Basiev T T, Prokhorov A M. Stimulated Raman scattering of laser radiation in Raman crystals [J]. Optical Materials, 1999, 11: 335-352.

[2] Fan Y X, Wang H T. All solid-state Raman lasers [J]. Chinese Journal of Quantum Electronics(量子电子学报), 2014, 31: 394-402 (in Chinese).

[3] Piper J A, Pask H M. Crystalline Raman lasers [J]. IEEE Journal of Selected Topics in Quantum Electronics, 2007, 13: 692-704.

[4] Greentree A D, Prawer S. Yellow Lasers: A little diamond goes a long way [J]. Nature Photonics, 2010, 4: 202-203.

[5] Basiev T T. New crystals for Raman lasers [J]. Physics of the Solid State, 2005, 47: 1400-1405.

[6] Schuckmann W. Zur kristallstruktur des calcium-borates Ca3(BO3)2 [J]. Neues Jahrbuch fur Mineralogie-Abhandlungen, 1969, 3: 142-144.

[7] Zhang S Y, Wu X, Song Y T, et al. Growth of birefringent Ca3(BO3)2 crystals by the Czochralski method [J]. Journal of Crystal Growth, 2003, 252: 246-250.

[8] Gu G X, Lv X S, Wang D, et al. Vibrational spectrum analysis of Ca3(BO3)2 [J]. Chinese Journal of Quantum Electronics(量子电子学报), 2011, 28: 210-217 (in Chinese).

[9] Gu Guixin. Investigation on Crystal Growth and Raman Performance of Ca3(BO3)2 Crystal and a High Temperature Raman Study on the Structure Phase Transition of YBO3 (Raman晶体Ca3(BO3)2的生长和光谱性能研究及YBO3化合物的相变研究) [D]. Hefei: Master Thesis of Hefei Institutes of Physical Science, Chinese Academy of Sciences, 2011: 1-72 (in Chinese).

[10] Liu Y Q, Zhang F, Wang Z P, et al. Ca3(BO3)2, a first wide waveband borate Raman laser crystal with strong Raman effects and outstanding anti-optical damage ability [J]. Journal of Materials Chemistry C, 2015, 3: 10687-10694.

[11] Hasnip P J, Refson K, Probert M I J, et al. Density functional theory in the solid state [J]. Philosophical Transactions of the Royal Society A, 2014, 372: 20130270.

[12] Vegas A, Cano F H, Garcia-Blanco S. Crystal-structure of calcium orthoborate-redetermination [J]. Acta Crystallographica Section B-Structural Science, 1975, 31: 1416-1419.

[13] Sitepu H, O’Connor B H, Li D. Comparative evaluation of the March and generalized spherical harmonic preferred orientation models using X-ray diffraction data for molybdite and calcite powders [J]. Journal of Applied Crystallography, 2005, 38: 158-167.

[14] Vegard L. The structure of isomorphic groups Pb(NO3)2, Ba(NO3)2, Sr(NO3)2, Ca(NO3)2 [J]. Zeitschrieft Fur Physik, 1922, 9: 395-410.

[15] Perdew J P, Ruzsinszky A, Csonka G I, et al. Restoring the density-gradient expansion for exchange in solids and surfaces [J]. Physical Review Letters, 2008, 100: 136406.

[16] Tang X L, Wan S M, Zhang B, et al. First-principles investigation of the influence of M (Mg, Ca and Ba) cations on Ba2M(B3O6)2 crystal Raman spectra [J]. Materials Chemistry and Physics, 2015, 149: 270-274.

[17] Zverev P G, Basiev T T, Osiko V V, et al. Physical, chemical and optical properties of barium nitrate Raman crystal [J]. Optical Materials, 1999, 11: 315-334.

[18] Chen H T, Lou Q H, Ye Z H, et al. Solid-state Raman laser [J]. Laser and Optoelectronics Progress(激光与光电子进展), 2005, 42: 55-61 (in Chinese).

[19] Castiglioni C, Milani A, Fazzi D, et al. Modulation of the electronic structure of polyconjugated organic molecules by geometry relaxation: A discussion based on local Raman parameters [J]. Journal of Molecular Structure, 2011, 993: 26-37.

[20] Tommasini M, Milani A, Fazzi D, et al. pi-conjugation and end group effects in long cumulenes: Raman spectroscopy and DFT calculations [J]. Journal of Physical Chemistry C, 2014, 118: 26415-26425.

[21] Herzberg G. Molecular Spectra and Molecular Structure [M]. Vol. 2: Infrared and Raman spectra of polyatomic molecules, Van Nostrand Reinhold, New York, 1945.

[22] Zhang G Y, Lan G X, Wang Y F. Lattice Vibration Spectroscopy(晶格振动光谱学) [M]. Beijing: Higher Education Press, 2001: 185-204 (in Chinese).