[1] Liang Z Z, Liang J Q, Zheng N et al. Optical absorbance of diamond doped with nitrogen and the nitrogen concentration analysis[J]. Acta Physica Sinica, 58, 8039-8043(2009).

[2] Lü F X, Tang W Z, Li C M et al. Preparation, fabrication and application of large area optical grade free standing diamond films[J]. Journal of Functional Materials, 35, 117-124(2004).

[3] Abdel-Rahman M A E, Lohstroh A, Bryant P. Alpha spectroscopy and X-ray induced photocurrent studies of a SC CVD diamond detector fabricated with PLD contacts[J]. Radiation Physics and Chemistry, 164, 108357(2019).

[4] Particle Physics Proceedings[J]. Trischuk W. Diamond particle detectors for high energy physics. Nuclear, 273/274/275, 1023-1028(2016).

[5] Hou L F, Du H B, Che X S et al. Preliminary study of temporal performances of a novel CVD diamond X-ray detector[J]. Acta Optica Sinica, 38, 0704001(2018).

[6] Zhou H Y, Zhu X D, Zhan R J. Fabrication and performance of CVD diamond radiation detector[J]. Acta Physica Sinica, 59, 1620-1623(2010).

[7] Tang W Z, Yu S W, Li C M et al. Development in technology to produce diamond infrared windows[J]. Infrared and Laser Engineering, 39, 348-352(2010).

[8] Yu S W, Liu Y Q, Tang W Z et al. Synthesis of diamond film as electromagnetic window material by an ellipsoidal MPCVD reactor at high input microwave power levels[J]. Journal of Synthetic Crystals, 41, 896-899(2012).

[9] Bogdanowicz R, Sobaszek M, Sawczak M et al. Enhanced boron doping of thin diamond films grown in deuterium-rich microwave plasma[J]. Diamond and Related Materials, 96, 198-206(2019).

[10] Liang Z Z, Jia X, Zhu P W et al. Effects of the additive NaN3 added in powder catalysts on the morphology and inclusions of diamonds synthesized under HPHT[J]. Diamond and Related Materials, 15, 10-14(2006).

[11] Eckert V, Leonhardt A, Hampel S et al. Morphology of MWCNT in dependence on N-doping, synthesized using a sublimation-based CVD method at 750 ℃[J]. Diamond and Related Materials, 86, 8-14(2018).

[12] Liu J L, Lin L Z, Zhao Y et al. Homo-epitaxial growth of single crystal diamond in the purified environment by active O atoms[J]. Vacuum, 155, 391-397(2018).

[13] Zheng Y T, Liu J L, Wei J J et al. Ultra-smooth and hydrophobic nitrogen-incorporated ultranano-crystalline diamond film growth in C-H-O-N gas phase system via microwave plasma CVD[J]. Surface and Coatings Technology, 374, 409-417(2019).

[14] Guo S B. Study of the effect of minute impurities on physical properties of diamond films[D]. Beijing: University of Science and Technology Beijing, 49(2009).

[15] Hei L F. Synthesis of large homoepitaxial single crystal diamond by DC arc plasma jet CVD with rotating arc and operated at gas recycling mode[D]. Beijing: University of Science and Technology Beijing, 109(2015).

[16] Hoinkis M, Weber E R, Landstrass M I et al. Paramagnetic nitrogen in chemical vapor deposition diamond thin films[J]. Applied Physics Letters, 59, 1870-1871(1991).

[17] Nistor S V, Stefan M, Ralchenko V et al. Nitrogen and hydrogen in thick diamond films grown by microwave plasma enhanced chemical vapor deposition at variable H2 flow rates[J]. Journal of Applied Physics, 87, 8741-8746(2000).

[18] Ye Y Q, Kuang T C, Lei S M et al. Technique progress in Raman spectroscopy characterization of diamond or diamond film[J]. Diamond & Abrasives Engineering, 161, 17-21(2007).

[19] Liu J L, Zheng Y T, Lin L Z et al. Surface conductivity enhancement of H-terminated diamond based on the purified epitaxial diamond layer[J]. Journal of Materials Science, 53, 13030-13041(2018).

[20] [20] Hei LF, Lu FX, Li CM, et al., 2012, 490/491/492/493/494/495: 3059- 3064.

[21] [21] Huang SM, SunZ, Lu YF, et al. and CoatingsTechnology, 2002, 151/152: 263- 267.

[22] Wolter S, Prater J, Sitar Z. Raman spectroscopic characterization of diamond films grown in a low-pressure flat flame[J]. Journal of Crystal Growth, 226, 88-94(2001).

[23] Berthou H, Faure C, Hänni W et al. Morphology and Raman spectra of diamond films grown with a plasma torch[J]. Diamond and Related Materials, 8, 636-639(1999).

[24] Su Y, Li H D, Cheng S H et al. Effect of N2O on high-rate homoepitaxial growth of CVD single crystal diamonds[J]. Journal of Crystal Growth, 351, 51-55(2012).

[25] Sumiya H, Toda N. Nishibayashi Y, etal. Crystalline perfection of high purity synthetic diamond crystal[J]. Journal of Crystal Growth, 178, 485-494(1997).

[26] Jin G J, Xu K, Tan J et al. Encapsulation structure of gradient refractive index with ultralow reflectance[J]. Acta Optica Sinica, 39, 0231001(2019).

[27] Liu J H, Chen M H, Wu G et al. Study on the evaluation of the crystal quality of diamonds[J]. Journal of Synthetic Crystals, 43, 559-564(2014).

[28] Guo Y Z. Study on fabrication and performance of radiation detector basic on CVD diamond[D]. Beijing: University of Science and Technology Beijing, 16-17(2018).

[29] Chand N. GaAs avalanche photodiodes and the effect of rapid thermal annealing on crystalline quality of GaAs grown on Si by molecular-beam epitaxy[J]. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 5, 822-826(1987).

[30] Ungár T, Borbély A. The effect of dislocation contrast on X-ray line broadening: a new approach to line profile analysis[J]. Applied Physics Letters, 69, 3173-3175(1996).

[31] Kurtz A D, Kulin S A, Averbach B L. Effect of dislocations on the minority carrier lifetime in semiconductors[J]. Physical Review, 101, 1285-1291(1956).

[32] Tran Thi T N, Morse J, Caliste D et al. Synchrotron Bragg diffraction imaging characterization of synthetic diamond crystals for optical and electronic power device applications[J]. Journal of Applied Crystallography, 50, 561-569(2017).

[33] Zhu R H, Miao J Y, Liu J L et al. High temperature thermal conductivity of free-standing diamond films prepared by DC arc plasma jet CVD[J]. Diamond and Related Materials, 50, 55-59(2014).

[34] Yin Z, Akkerman Z, Yang B X et al. Optical properties and microstructure of CVD diamond films[J]. Diamond and Related Materials, 6, 153-158(1997).

[35] Yan X J. Fang B, et al. Temperature sensitivity of UV-visible-near infrared and photoluminescence spectra of diamond and its significance for identification[J]. Acta Optica Sinica, 39, 0930005(2019).