刘作业

发布日期:2024-10-15

职称:教授,博士生/硕士生导师

主要研究方向:超快物理与快速检测技术

招生专业:核科学与技术、能源动力、粒子物理原子核物理、原子分子物理

邮箱:zyl@lzu.edu.cn

办公室:现物楼304

 

一、主要学历或学术经历

2004年9月-2008年6月:兰州大学应用物理(核物理与核技术方向)专业,获理学学士。

2008年9月-2015年6月:兰州大学粒子物理与原子核物理专业,获理学博士。

2012年10月-2015年1月:德国马克思普朗克核物理研究所, 激光物理联合培养博士。

2015年7月-2016年4月:兰州大学,讲师。

2016年4月至今:兰州大学,教授。

二、主讲课程

《计算物理》、《普通物理2/2》、《数值分析模拟》、《工程数值计算与分析》

三、主要成果

1、科研项目

(1)致密气体介质中的超快动力学与脉冲整形研究,国家自然科学面上项目

(2)测量不稳定核基本性质的共线共振电离激光谱仪,国家自然科学基金委重大仪器研制

(3)清华大学屏蔽实验堆退役前期准备移动式活化样品分析装置,清华大学,横向415.5万

(4)基于原子超精细结构的放射性核素核结构研究,国家自然科学基金委大科学装置培育59万

(5)放射性气溶胶在线监测装置研究,甘肃省核产业研究院子项目

(6)部委、省等委托项目6项

 

2、发明专利

(1)非共线的红外和频光谱的时间分辨泵浦-探测装置及方法, ZL202011457954.7

(2)一种立体角的离子束荧光探测装置和方法, ZL202111612785.4

(3)一种全收集的动量成像谱仪, ZL202210311210.7

(4)一种双光束非共线泵浦-探测系统, ZL202010157064.8

(5)一种高密度样品分析的磁分析系统,ZL20200980944.0

(6)一种极紫外激光单能化系统及方法,CN202210297264.2

(7)一种用于退役反应堆固体废物放射性水平快速分析与分类的测量装置和方法,CN202311275696.4

(8)一种用于六氟化铀气体样品的同位素分析和其杂质含量测量的装置和方法,CN202210035544.6

(9)用于放射性核素的微波等离子体辅助激光光谱测量系统,202410732303.6

 

3、第一或通讯作者论文

[1] Resonant Perfect Absorption Yielded by Zero-Area Pulses, Y He, Z Liu,* C Ott, A N Pfeiffer, S Sun, M B Gaarde, T Pfeifer, Bitao Hu, Phys. Rev. Lett. 129, 273201 (2022) ( 学科顶级、通讯作者).

[2] Phase reconstruction of coherently excited systems by transient-absorption spectroscopy, Z Liu*, S M Cavaletto, C Ott, K Meyer, Y Mi, Z Harman, C H Keitel, T Pfeifer, Phys. Rev. Lett. 115, 033003(2015) (学科顶级、一作通讯).

[3] Free-space competition between gain-swept superradiance and spontaneous emission from N2+ in a femtosecond filament, Y Zhang, Y Gao, H Lei, Z Zhu, B Hu, K Zhao, Z Zhao, P Ding, Z Liu*, Phys. Rev. A 109, 013105 (2024) (学科顶级、通讯作者).

[4] Deep learning assisted pressure measurements using femtosecond laser-induced grating scattering technique, T Zhao, P Ding, Y Wang, R Yang, S Yan, M Zhu, S Sun, Z Liu*, B Hu, J. Phys. D: Appl. Phys. 57, 155201(2024) (通讯作者).

[5] Analysis of Cs solution by nano-silica particles-enhanced laser-induced breakdown spectroscopy, S Wu, C Yang, J Yue, Z Wang, J Yang, S Sun, B Hu, Z Liu*, Appl. Phys. B 130, 170(2024).

[6] The signal quality improvement of laser-induced breakdown spectroscopy due to the microwave plasma torch modulation, B Wei, C Yang, S Wu, Y Xiang, Z Wang, S Sun, B Hu, Z Liu*, Analytica Chimica Acta 1328 (2024) 343183 (通讯作者).

[7] Coherent modulation of intense XUV pulses by ground-state coupling, H Shi, J Gao, Y He, Y Wang, Z Fang, S Sun, B Hu, Z Liu∗, Phys. Lett. A 516, 129650(2024)

[8] A method to obtain radioactivity of non-𝛾 nuclides by 60Co based on Monte Carlo simulations, Y Shi, Y Xiang, R Su, B Hu, S Sun∗, Z Liu∗, Nucl. Eng. Technol. 56 (2024) 4134

[9] 飞秒激光脉冲对N2分子非绝热准直的调控,郑悦, 张宇璇, 孙少华, 丁鹏基, 胡碧涛, 刘作业,物理学报, 72(6): 064203(2023) (通讯作者).

[10] Theoretical treatment on externally-seeded superradiance from N2+ in femtosecond laser filamentation in low-pressure nitrogen, Q Wang, P Ding*, S G Wilkins, M A Kaklamanakis, Y Zhang, Z Liu*, B Hu, Front. Phys. 10:1090346(2023) (通讯作者).

[11] Formation of molecular Rydberg states in an intense laser field, G Shi, Y Xiang, J Lei, S Sun, Z Liu*, B Hu, Eur. Phys. J. D (2023) 77:20 (通讯作者).

[12] The study of femtosecond LIBS in Vortex–Gaussian and double Gaussian configurations, J Gao, J Yang, Z Wang, S Sun, B Hu, Z Liu*, Appl. Phys. B (2023) 129, 119 (通讯作者).

[13] Direct manipulation of atomic excitation with intense extreme-ultraviolet laser fields Y He, H Shi, N Xue, A Magunia, S Sun, J Ding, B Hu, Z Liu,* Phys. Rev. A 105, 043113 (2022) (学科顶级、通讯作者).

[14] Characterization of femtosecond laser-induced grating scattering of a continuous-wave laser light in air, Y Wu, P Ding, Y Zheng, T Zhao, Z Zhu, X Liu, S Sun, J Wang, Z Liu*, B Hu, Optics Express 30, 17038 (2022) (通讯作者).

[15] Dissociation pathways established in strong‑field single ionization of molecular CO, G Shi, Y Xiang, J Lei, S Sun, Z Liu*, B Hu, Appl. Phys. B128, 213(2022) (通讯作者).

[16] Populations of B2 and X2g electronic states of molecular nitrogen ions in air determined by fluorescence measurement, Q Wang, R Chen, Y Zhang, X Wang, C Sun, P Ding, Z Liu*, Bitao Hu, Phys. Rev. A 103, 033117 (2021) (学科顶级、通讯作者).

[17] Watching the formation and reshaping of a Fano resonance in a macroscopic medium, Y He, Z Liu,* N Xue, C Ott , T Pfeifer, A N Pfeiffer, B Hu† Phys. Rev. A 103, L041102 (2021) (学科顶级、通讯作者)

[18] Macroscopic transient absorption in a V-type three-level system, Y He, R Chen, F Wang, A N Pfeiffer, Y Zhang, Z Cui, J Ding, Z Liu*, Bitao Hu, J. Phys. B 53, 175601 (2020) (通讯作者).

[19] Spectral attenuation of a 400-nm laser pulse propagating through a plasma filament induced by an intense femtosecond laser pulse, Q Wang, R Chen, J Zhao, C Sun, X Wang, J Ding, Z Liu*, Bo Hu, Chin. Phys. B 29, 013301(2020) (通讯作者).

[20] Signatures of self-modulation effects during pulse propagation in single-pulse absorption spectra, Y He, Z Liu,* Z Cui, Y Zhang, A N Pfeiffer, T Pfeifer, J Ding, B Hu, Phys. Rev. A 99, 053418 (2019) (学科顶级、通讯作者).

[21] Ultrafast dynamic evolution of multilevel systems in mediumstrength laser fields, Z Wang, G Shi, Y He, Q Wang, J Ding, S Sun, Z Liu*, B Hu, New J. Phys. 21, 053007 (2019) (学科顶级、通讯作者).

[22] Phase reconstruction of a strong-laser-field-excited complex molecular system, Y Zhang, Z Wang, Q Wang, J Ding, S Sun, Z Liu,* B Hu, Phys. Rev. A 98, 033412 (2018) (学科顶级、通讯作者).

[23] Observation and quantification of the quantum dynamics of a strong-field excited multi-level system, Z Liu, Q Wang, J Ding, S M Cavaletto, T Pfeifer, B Hu, Sci. Rep. 7, 39993(2017) (一作通讯).

[24] Propagation of a filamentary femtosecond laser beam with high intensities at an air-solid interface, Z Liu*,Y Zhang,J Ding,S Sun, B Hu, Chin. Opt. Lett. 15, 021401 (2017) (一作通讯).

[25] Energy exchange process among multiple filamentary femtosecond laser beams in air, J. Ding, P. Ding, Z. Liu* and B. T. Hu, Sci. China Phys. Mech. 59, 633001(2016) (SCI一区,通讯作者).

[26] Control of molecular excitation during the plasma generation of a femtosecond laser pulse,Quanjun Wang, Yanghua Zhang, Zhenhao Wang, Jingjie Ding, Zuoye Liu*, and Bitao Hu, Chin. Opt. Lett. 14, 110201 (2016) (通讯作者)

[27] Spatiotemporal pulse-splitting of a filamentary femtosecond laser pulse via multi-filament interaction, J J Ding, Z Y Liu*, S H Sun, Y C Shi and Bitao Hu, Laser Phys. 25, 105401 (2015). (通讯作者).

[28] Characterization of Femtosecond Laser-Induced Plasma under Low Pressure in Argon, Cao Y, LIU X, Xian W, Sun S, Sun M, Ding P, Shi Y, Liu Z, Hu B. Chin. Phys. Lett. 32, 035203 (2015) (通讯作者).

[29] Signatures and control of strong-field dynamics in a complex system, K Meyer, Z Liu, N Müller, J M Mewes, A. Dreuw, T Buckup, M Motzkus, T Pfeifer, PNAS 112, 15613(2015) (学科顶级).

[30] He原子体系中偶极子响应的周期性量子相位 调控的理论研究,丁晶洁,王全军,刘作业*,胡碧涛,物理学报,64, 243201(2015) (通讯作者)

[31] Generation of high-frequency combs locked to atomic resonances by quantum phase modulation, Z Liu, C Ott, S M Cavaletto, Z Harman, C H Keitel, T Pfeifer, New J Phys. 16, 093005 (2014) (学科一流).

[32] Spatial splitting of femtosecond laser pulse induced by infrared plasma grating, Z Liu, B Hu J. Phys.: Conf. Ser. 488, 032007 (2014)

[33] Efficient generation of third harmonic radiation of air filament induced by plasma grating, Z Liu, Y Shi, B Hu, Acta Phys. Sin. 63, 184206 (2014)

[34] Spectral modulation and supercontinuum generation assisted by an infrared femtosecondplasma grating, ZY Liu, S H Sun, Y C Shi, P J Ding, Q C Liu, X Liu, B Ding, B Hu, Chin. Phys. B 22, 075204 (2013)

[35] Fluorescence spectroscopy of gas plasma induced by multifilament interaction,B Hu, Z Liu, L Li, S Sun, P Ding, Y Shi, X Liu, Q Liu, Z Guo, B Ding, Laser Phys. Lett., 9, 075401(2013) (SCI一区)

[36] Control of third harmonic generation by plasma grating generated by two noncollinear IR femtosecond filaments, Z Liu, P Ding, Y Shi, X Lu, S Sun, X Liu, Q Liu, B Ding, B Hu, Opt. Express 20, 8837 (2012) (学科一流)

[37] Enhancement of third-order harmonic generation by interaction of two IR femtosecond filaments,Z Y Liu, P J Ding, Y C Shi, X Lu, Q C Liu, S H Sun, X L Liu, B W Ding, B T Hu, Laser Phys. Lett. 9, 649 (2012) (SCI一区)

[38] Dynamics of Coulomb explosion of Xe clusters in an ultrafast high-intensity laser field, Z Y Liu, H C Du, S H Sun, L Li, L L Ma and B T Hu, Indian J. Phys. 86, 647(2012)

[39] Quasi-classical study of stereo-dynamics for the reaction C+CH→C2+H on the 12A’ potential energy surface, H R Yang, Z Y Liu, S H Sun, H C Du, L Li, B T Hu, J Theor. Comput. Chem., 10, 75 (2011)

[40] Theoretical study of stereo-dynamics for the reaction C(3P)+CH(2II) →C2+H on the three lowest potential energy surfaces, Z. Y. Liu, B. T. Hu, J Theor. Comput. Chem. 9, 1065 (2010)

 

四、荣誉获奖

1、2012年获教育部博士研究生学术新人奖

2、2021年入选兰州大学萃英学者

3、2022年入选甘肃省陇原青年英才

4、2022年入选甘肃省青年飞天学者

5、2023年核工业教育协会教学成果奖(1/3)

6、2023年甘肃省优秀博士论文指导教师

7、2023年兰州大学优秀本科毕业论文指导教师

8、2024年甘肃省研究生教育优秀导师

 

五、学术兼职

1、2021-至今: 中国核学会锕系物理与化学分会理事;

2、2023-至今: 甘肃省核学会理事;

3、2023-至今: 甘肃省物理学会理事;

4、2024-至今: 中国光学学会高速摄影和光子学专业委员会委员;

5、2024-至今: 甘肃省核与辐射技术及应用标准化技术委员会委员;