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[53]刘晓东,涂丽平. SN74LS00N芯片高电平输出特性的研究. 电子器件50(3): 500-504(2020)
[52]刘晓东,涂丽平. SN74LS00N输出低电平特性的理论与实验研究. 电子设计工程28(3) : 115-119 (2020).
[51]刘晓东,涂丽平. 两种晶体管饱和输出状态的比较分析. 电气电子教学学报42(1) : 118-123 (2020).
[50]X. D. Liu, L. P. Tu. Investigation on the High-Level Output Property of the NAND Gate in SN74LS00N. J. Phys. Conf. Ser. (Accepted for publication) 2019.
[49]X. D. Liu, L. P. Tu. Comparative Analysis on the Saturation Output States of a Discrete Transistor and a TTL NOT Gate. J. Phys. Conf. Ser. (Accepted for publication) 2019.
[48]X. D. Liu, J. L. Fu, S. Y. He, H. M. Meng. Spectral Analysis on the Nickel Hydroxyl and deuteroxyl Nitrate Powders.J. Phys. Conf. Ser. 2019, 774: 012011
[47]X. D. Liu, J. L. Fu, L. P. Tu. Comparative Study on the Forbidden States of the SR Flip-flops. 2nd International Conference on Informatics, Control and Automation (ICA 2019) 507-512 (2019).
[46]X. D. Liu, J. L. Fu, L. P. Tu. Study on the Output Low-Level Property of the SN74LS00N chip. 2nd International Conference on Informatics, Control and Automation (ICA 2019) 501-506 (2019).
[45]X. D. Liu, L. Liu, H. M. Meng, S. Gao, W. Zhang. Contrast Analysis on Infrared and Raman Spectra of the Sinomenine Podwer. Proceedings of the 20163rd International Conference on Mechatronics and Information Technology, 49, 654-657 (2016).
[44] X. D. Liu, L. Liu, S. Gao, H. M. Meng, W. Zhang. High Resolution Infrared and Raman Spectra of the Polycrystalline of the Polycrystalline Sinomenine Hydrochloride. MATEC Web of Conferences, 67, 03025 (2016)
[43] X. D. Liu, S. Gao, D. D. Meng, X.G. Zheng, X. L. Xu. Factor Group Analysis on the Deformed Pyrochlore-structure Hydroxyl Transition Metal Halides. Adv. Mater. Res., 1015, 553~556 (2014).
[42] X. D. Liu, D. D. Meng, X.G. Zheng, X. L. Xu, S. Gao.Investigation on the Fano line shaped Raman modes of the Hydroxyl and Deuteroxyl Cobalt Chlorides. Adv. Mater. Res., 1015, 548~552 (2014).
[41] X. D. Liu, X.G. Zheng, D. D. Meng, X. L. Xu, Q. X. Guo. Raman spectroscopic study of the frustrated spin 1/2 antiferromagnet clinoatacamite.J. Phys.: Condens. Matter 25, 256003 (2013).
[40] X. D. Liu, L. Dong, D. D. Meng and S. Wang. Multiformality of 1st, 2nd and 3rd-order subschemes of four-level optical quantum coherence systems. Adv. Mater. Res., 760-762: 290-293 (2013).
[39] X. D. Liu, D. D. Meng, X.G. Zheng, X. L. Xu, Q. X. Guo. Low temperature Raman spectroscopic study on γ-Cu2(OH)3Cl.Appl. Mech. Mater.341-342: 320-323(2013).
[38] X. D. Liu, X.G. Zheng, D. D. Meng, X. L. Xu. More than four subtypes of trimeric hydrogen bonds in hydroxyl halides. Appl. Mech. Mater.341-342: 242-245(2013).
[37] X. D. Liu, J. Lu, M. Fujihala, D. D. Meng, X. L. Xu, X.G. Zheng, Z. W. Chen, Q. X. Guo. Local Laser Heating Effect on Raman Spectroscopy of β-Co2(OH)3Br. Adv. Mater. Res., 430-432, 566-569 (2012).
[36] X. D. Liu, X. L. Xu, D. D. Meng, M. Fujihala, X. G. Zheng, Z. W. Chen, Q. X. Guo. Raman Band Redshifting of α-Cu2(OH)3Cl with Decreasing the Temperature. Adv. Mater. Res., 430-432, 391-394 (2012).
[35] X. D. Liu, D. D. Meng, X.G. Zheng, and Q. X. Guo. Spectral properties of Botallackite-structure Alpha-Cu2(OH/D)3Br at room temperature. Adv. Mater. Res., 391-392, 1493-1497 (2012).
[34] X. D. Liu, M. Hagihala,X.G. Zheng, and Q. X. Guo. Vibrational Spectroscopic Properties of Botallackite-structure Basic Copper Halides. Vibrat. Spectros.56, 177-183 (2011).
[33] X. D. Liu, M. Hagihala,X. G. Zheng, W. J. Tao, D. D. Meng, S. L Zhang and Q. X. Guo. Trimeric hydrogen bond in geometrically frustrated hydroxyl cobalt halogenides. Chin. Phys. Lett. 28, 017803 (2011).
[32] X. D. Liu, M Hagihala,X. G. Zheng, and Q. X. Guo.Raman and mid-IR spectral analysis of the atacamite-structure Hydroxyl/Deuteroxyl Nickel Chlorides Ni2(OH/D)3Cl. Chin. Phys. Lett. 28, 087805 (2011).
[31] X. D. Liu, M. Hagihala,X. G. Zheng, and Q. X. Guo. Microstructured hydroxyl environments and Raman spectroscopy in selected basic transition-metal halides. Chin. Phys. B 20, 087801 (2011).
[30] X. D. Liu, M. Hagihala,X. G. Zheng, and Q. X. Guo. Raman and mid-IR spectroscopic study of geometrically frustrated hydroxyl cobalt halides at room temperature. Chin. Phys. B 20, 077801 (2011).
[29] 刘晓东,陶万军,郑旭光,萩原雅人,孟冬冬,郭其新. 磁几何阻挫材料羟基氯化钴的中红外光谱特征. 物理学报,60(3), 037803 (2011).
[28] X. D. Liu, D. D. Meng, X. G. Zheng, M. Hagihala,and Q. X. Guo. Mid-IR and Raman Spectral Properties of Hydroxyl/Deuteroxyl Cobalt Chlorides. Adv. Mater. Res., 146-147, 1194-1197 (2011).
[27] X. D. Liu, D. D. Meng, X. G. Zheng, M. Hagihala,and Q. X. Guo. Mid-IR and Raman Spectral Properties of Clinoatacamite- structure Basic Copper Chlorides. Adv. Mater. Res., 146-147, 1202-1205 (2011).
[26] 刘晓东, 孟冬冬, 张森林, 闫学群. 级联四能级光学量子相干系统子类型的结构多样性. 光学学报 30, 3336 (2010).
[25] X. D. Liu, D. D. Meng, S. L. Zhang, W. J. Tao, J. Chee.Multiformity of Optical Quantum Coherence Systems with Y and Inverted Y-type Schemes. Commun. Theor. Phys. 54, 273 (2010).
[24] 刘晓东, 付剑, 宋昭远. 稀土掺杂硼硅酸盐玻璃的532nm激光保护特性. 光电子•激光, 20(5): 633-636 (2009).
[23] 刘晓东, 宋昭远, 侯蓝田. Lyman_Alpha 高斯柱形光子胚胎的传播模型. 大连民族学院学报 9(5), 121-123 (2007).
[22] 刘晓东. 光子胚胎学的理论体系. 大连民族学院学报,7(3): 1-4 (2005).
[21] 刘晓东, 宋昭远, 倪正华, 刘兆伦, 侯蓝田.聚合物光子晶体光纤. 光通信技术, 118(7): 16-19 (2004).
[20] 刘晓东, 倪培根, 程丙英, 张道中.可变晶格常数乙醇-二氧化硅胶质光子晶体中的Raman散射. 物理学报, 53(9): 3059-3064 (2004).
[19] 刘晓东, 王义全, 许兴胜, 李曙光, 程丙英, 张道中. 用不同密度分布的发光分子探测光子晶体的全态密度. 物理学报, 53(1): 132-135 (2004).
[18] 刘晓东, 王义全, 许兴胜, 程丙英, 张道中. 具有态守恒赝隙的光子晶体中两能级原子自发辐射的增强与抑制. 物理学报, 53(1): 125-131 (2004).
[17] X. D. Liu, P. G. Ni, B. Y. Cheng, C. J. Jin, D. Z. Zhang.Intensity-Invariable Raman Scattering in an Ethanol-Silica Photonic Crystal with a Varying Pseudogap. Jpn. J. Appl. Phys. 43(8A): L1001-1003 (2004).
[16] X. D. Liu, X.D. Zhang, Y. Q. Wang, B.Y. Cheng, D. Z. Zhang.Probing Method of the Density of States in a Photonic Crystal with Luminescent Molecules. Phys. Rev. B68, 155118 (2003).
[15] X. D. Liu, Y. Q. Wang, B. Y. Cheng, D. Z. Zhang.Conservative Form of the Density of States of a Photonic Crystal with a Pseudogap.Phys. Rev. E68, 036610 (2003).
[14] X. D. Liu,S. G. Li, H. L. Guo, D. Z. Zhang, Z. L. Li, L. T. Hou. Effects of Matrices on Mie Scattering in the Mid-infrared Region.Chin. Phys.12(10): 1143-1148 (2003).
[13] X. D. Liu,X. S. Xu, Y. Q. Wang, D. Z. Zhang, B. Y. Cheng.Theoretical Study of the Enhancement and Suppression of the fluorescent spectra of dye molecules in a Photonic Crystal with a pseudogap. Chin. Phys.12(9): 992-996 (2003).
[12]刘晓东, 李曙光, 侯蓝田, 王慧田. 含吸收性散射体中红外无序介质中的光子局域化. 红外与毫米波学报, 21(5): 337-341 (2002).
[11] 刘晓东, 侯蓝田. 碳化硅压片的异常中红外透射光谱. 光谱学与光谱分析, 22(5): 770-773 (2002).
[10] 刘晓东, 侯蓝田, 王慧田, 李曙光. 含金属散射体的中红外无序介质的光子局域化理论研究. 物理学报, 51(9): 2123-2127 (2002).
[09] 刘晓东, 李曙光, 侯蓝田, 王慧田, 闵乃本. 中红外低浓度无序介质的光子定域化理论研究. 物理学报, 51(9): 2117-2122 (2002).
[08] X. D. Liu, L. T. Hou, H. T. Wang, S. G. Li, G. L. Huo. Mid-infrared photon localization using two kinds of mid-infrared materials as random scatterers.Chin. Phys. Lett.19(9): 1353-1355 (2002).
[07] X. D. Liu,L. T. Hou, H. T. Wang.Investigations into the mid-infrared Christiansen effect of the dispersive materials.Infrared Phys. Techn.43(6): 401-405 (2002).
[06] 刘晓东, 侯蓝田. 激光在光子局域化研究中的应用. 激光技术, 26(1): 29-32 (2002).
[05] 刘晓东. 无序介质的中红外光子局域化和Z-扫描技术研究.材料导报16(3): 69 (2002).
[04] 刘晓东, 侯蓝田. 无序光学介质中的光子局域化. 材料导报,15(11): 29-32(2001).
[03] 刘晓东, 郭胜利, 侯蓝田, 王慧田, 闵乃本. 高斯激光束闭孔Z-扫描曲线特征研究. 中国激光, 28(11): 985-987 (2001).
[02] X. D. Liu, S. L. Guo, H. T. Wang, N. B. Min, L. T. Hou.Investigation of the influence of finite aperture size on the Z-scan transmittance curve. J. Nonlinear Opt. Phys.10(4): 431-439 (2001).
[01] X. D. Liu, S. L. Guo, H. T. Wang, L. T. Hou.Theoretical study on the closed-aperture Z-scan curves in the materials with nonlinear refraction and strong nonlinear absorption.Opt. Commun.197(4-6): 431-437 (2001).
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