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《Ultrafast Science》: 作品数：78被引量：126H指数：5; 导出分析报告; 主办单位：Xi'an Institute of optics and Precision Mechanics （XIOPM），CAS; 最新期次：2024年4期更多>>; 发文主题：ULTRAFASTATTOSECONDINTENSEREPETITIONHARMONIC更多>>; 发文领域：理学机械工程电子电信一般工业技术更多>>; 发文基金：国家自然科学基金北京市自然科学基金上海市自然科学基金高等学校学科创新引智计划更多>>

《Ultrafast Science》Editorial Board: 《Ultrafast Science》2024年第4期I0003-I0005,共3页

External-Magnetic-Field-Free Spintronic Terahertz Strong-Field Emitter被引量：1: 《Ultrafast Science》2024年第4期1-9,共9页Shaojie Liu Zejun Ren Peng Chen Sai Chen Mingxuan Zhang Zehao Yang Deyin Kong Jinguang Wang Yifei Li Jinglong Ma Xin Lu Baolong Zhang Zhongkai Liu Xiufeng Han Caihua Wan Yutong Li Ranjan Singh Xiaojun Wu; supported by the National Key R&D Program of China(2022YFA1604402);the National Natural Science Foundation of China(11827807,92250307,and 62005140);the Open Project Program of Wuhan National Laboratory for Optoelectronics No.2022WNLOKF006.; Intense terahertz(THz)radiation in free space has immense potential for regulating material state,accelerating electrons,producing biological effects,and so on.However,the high cost and challenges involved in construc...; 关键词：AMPLIFIER PUMP REPETITION

High Harmonic Generation Light Source with Polarization Selectivity and Sub-100-μm Beam Size for Time-and Angle-Resolved Photoemission Spectroscopy: 《Ultrafast Science》2024年第4期11-19,共9页Haoyuan Zhong Xuanxi Cai Changhua Bao Fei Wang Tianyun Lin Yudong Chen Sainan Peng Lin Tang Chen Gu Zhensheng Tao Hongyun Zhang Shuyun Zhou; supported by the National Natural Science Foundation of China(Grant Nos.12327805,12234011,92250305,52388201,11725418,and 11427903);the National Key R&D Program of China(Nos.2021YFA1400100 and 2020YFA0308800);C.B.is supported by a project funded by China Postdoctoral Science Foundation(Nos.2022M721886 and BX20230187);the Shuimu Tsinghua Scholar Program.Z.T.acknowledges the support from the National Key Research and Development Program of China(Grant No.2021YFA1400200);the National Natural Science Foundation of China(No.12274091);the Shanghai Municipal Science and Technology Basic Research Project(Grant No.22JC1400200).; High-quality ultrafast light sources are critical for developing advanced time-and angle-resolved photoemission spectroscopy(TrARPES).While the application of high harmonic generation(HHG)light sources in TrARPES has ...; 关键词：POLARIZATION RELAXATION TOPOLOGICAL

Compressed Sensing of Field-Resolved Molecular Fingerprints Beyond the Nyquist Frequency: 《Ultrafast Science》2024年第4期21-27,共7页Kilian Scheffter Jonathan Will Claudius Riek Herve Jousselin Sébastien Coudreau Nicolas Forget Hanieh Fattahi; supported by research funding from the Max Planck Society.; Ultrashort time-domain spectroscopy and field-resolved spectroscopy of molecular fingerprints are gold standards for detecting samples’constituents and internal dynamics.However,they are hindered by the Nyquist crite...; 关键词：RESOLVED ABSORPTION ACCELERATION

Ultrafast Plasmonics for All-Optical Switching and Pulsed Lasers: 《Ultrafast Science》2024年第4期29-61,共33页Muhammad Aamir Iqbal Wang Lin Wang Pengyun Jianrong Qiu Xiaofeng Liu; supported by the National Natural Science Foundation of China(grant number 62175210);the Natural Science Foundation of Zhejiang Province(grant number LR21E020005).; Surface plasmon resonances(SPRs)are often regarded as the collective oscillations of charge carriers localized at the dielectric–metal interface that display an ultrafast response upon light excitation.The recent dev...; 关键词：SWITCHING COLLECTIVE ILLUSTRATION

Two-Photon Pumped Phase Locking of Random Lasers in Hybrid Perovskite Multi-Crystalline Microdisks: 《Ultrafast Science》2024年第4期63-70,共8页Qin Zhang Yue Liu Yi Zhang Yuxin Zhang Jinxin Guo Yiwei Zhang Yulan Fu Xinping Zhang; supported by the National Natural Science Foundation of China(12074020).; Phase control of random lasing processes has been a challenge both in physics and in the device/materials design.Although conventional saturable absorbers can be integrated with random lasers to conceive mode-locking ...; 关键词：PUMPING LASING NARROW

Coherent Terahertz Wave Generation from Mono-and Multilayer MoS_(2) through Quantum Interference: 《Ultrafast Science》2024年第4期71-78,共8页Yuhang He Yuxuan Chen Xiangyu La Chenyin Dai Zhen Tian Jianming Dai; supported by the National Science Foundation of China(NSFC)(nos.62375199,62075157,and 62235013);Tianjin Municipal Fund for Distinguished Young Scholars(grant no.20JCJQJC00190);Key Fund of Shenzhen Natural Science Foundation(grant no.JCYJ20200109150212515).; Quantum interference(QI)has been widely studied in advanced materials and can be exploited to control the nonlinear response by varying the relative phase between the incident optical pulses.However,the contribution o...; 关键词：POLARIZATION QUANTUM MULTILAYER

Multiple-Photon Resonance Enabled Quantum Interference in Emission Spectroscopy of N_(2)^(+)被引量：1: 《Ultrafast Science》2024年第2期1-7,共7页Xiang Zhang Qi Lu YaLei Zhu Jing Zhao Rostyslav Danylo Liang Xu Mingwei Lei Hongbing Jiang Chengyin Wu Zhedong Zhang Aurélien Houard Vladimir Tikhonchuk AndréMysyrowicz Qihuang Gong Songlin Zhuang Zengxiu Zhao Yi Liu; supported in part by the National Natural Science Foundation of China(Grant Nos.12034013,12234020,12204308,12174011,and 12104380);the Shanghai Science and Technology Commission(Grant No.22ZR1444100);the Early Career Scheme(No.9048216);NSFC/RGC Collaborative Research Scheme(No.9054901)from the Research Grants Council of Hong Kong.; Quantum interference occurs frequently in the interaction of laser radiation with materials,leading to a series of fascinating effects such as lasing without inversion,electromagnetically induced transparency,Fano res...; 关键词：PUMPED PUMP QUANTUM

Quantitative Mapping of Transient Thermodynamic States in Ultrafast Laser Nanostructuring of Quartz: 《Ultrafast Science》2024年第2期9-18,共10页H.D.Nguyen A.Tsaturyan S.Sao Joao R.Dwivedi A.Melkonyan C.D’Amico E.Kachan J.P.Colombier G.Kermouche R.Stoian; funded by a public grant from the French National Research Agency(ANR)under the“France 2030”investment plan,with the reference EUR MANUTECH SLEIGHT-ANR-17-EURE-0026;funded by the ANR grants ANR-19-CE30-0036 and ANR-21-CE08-0005;support from the Jean Monnet University under its research supporting actions plan.Numerical calculations have been performed using HPC resources from GENCI-TGCC,CINES(Project gen7041)。; Understanding material structural reaction to light is of utmost importance to advance processing resolution in ultrafast laser volume structuring into the nanoscale.Selective thermodynamic pathways are required to qu...; 关键词：QUARTZ hundreds qualitative

《Ultrafast Science》