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核子工程與科學研究所

林明緯 副教授

林明緯 林明緯 副教授

連絡地址:綠能大樓609
電子信箱:mwlin@mx.nthu.edu.tw
連絡電話:03-5715131 ext.35555
實驗室:先進光源與輻射應用實驗室

授課領域

放射線與物質作用、工程數學一、核工導論、應用光電子學

研究專長

超快雷射科技、非線性光學、電漿物理、輻射度量

學歷一覽
  1. 美國, 賓夕凡尼亞州立大學, 核子工程博士 2010-08~2015-05

期刊論文
  1. M.-W. Lin*, T.-Y. Chu, Y.-Z. Chen, D. K. Tran, H.-H. Chu, S.-H. Chen, and J. Wang, “Laser wakefield acceleration driven by a few- terawatt laser pulse in a sub-mm nitrogen gas jet,” Phys. Plasmas 27, 113102 (2020).

  2. J. Nattress, F. Sutanto, P.-W. Fang, Y.-Z. Chen, A. Cheng, K.-Y. Chu, T.-S. Duh, H.-Y. Tsai, M.-W. Lin*, and I. Jovanovic, “12C(p,p’)12C Reaction (Ep = 19.5 – 30 MeV) for Active Interrogation of Special Nuclear Material,” Phys. Rev. Appl 14, 034043 (2020).

  3. M.-W. Lin*, C.-Y. Hsieh, D. K. Tran, and S.-H. Chen, “Simulation study of ionization-induced injection in sub-terawatt laser wakefield acceleration,” Phys. Plasmas 27, 013102 (2020). Editor’s Pick

  4. C.-L. Tsai, Y.-H. Tseng, A.-Y. Liang, M.-W. Lin, S.-D. Yang, M.-C. Chen, “Generation and nonlinear compression of intense optical pulse at 1.55 μm by multiple plate continuum,” J. Light. Technol. 37, 5100 (2019).

  5. H.-Y. Tsai, C.-H. Sung, H.-H. Chen, M.-W. Lin, H.-C. Huang, and S.-L. Chang, “Clinical application of ionization density dependence of the glow curve for measuring linear energy transfer in therapeutic proton beams,” Radiat. Meas. 127, 106146 (2019).

  6. C.-Y. Hsieh, M.-W. Lin*, and S.-H. Chen, “Effect of driving pulse properties on the performance of sub-terawatt laser wakefield acceleration,” AIP Adv. 8, 105009 (2018).

  7. C.-Y. Hsieh, M.-W. Lin*, and S.-H. Chen, “Simulation study of the sub-terawatt laser wakefield acceleration operated in self- modulated regime,” Phys. Plasmas 25, 023101 (2018).

  8. M.-W. Lin, C.-Y. Hsieh, Y.-L. Liu, S.-H. Chen, and I. Jovanovic, “Effects of the precursor electron bunch on quasi-phase matched direct laser acceleration,” Phys. Plasmas 23, 123110 (2016).

  9. T. Shi, J. Nattress, M. Mayer, M.-W. Lin, and I. Jovanovic, “Neutron spectroscopy by thermalization light yield measurement in a composite heterogeneous scintillator”, Nucl. Instr. Meth. Phys. Res. A 839, 86 (2016).

  10. M.-W. Lin and I. Jovanovic, “Single-Shot Measurement of Temporally-Dependent Polarization State of Femtosecond Pulses by Angle-Multiplexed Spectral-Spatial Interferometry,” Sci. Rep. 6, 32839 (2016).

  11. S. Wandel, M.-W. Lin, Y. Yin, G. Xu, and I. Jovanovic, “Parametric generation and characterization of femtosecond mid-infrared pulses in ZnGeP2,” Opt. Express 24, 5287 (2016).

  12. S. Wandel, M.-W. Lin, Y. Yin, G. Xu, and I. Jovanovic, “Bandwidth control in 5-µm pulse generation by dual-chirped optical parametric amplification,” J. Opt. Soc. Am. B 33, 1580-1587 (2016).

  13. M.-W. Lin and I. Jovanovic, “Direct electron acceleration in plasma waveguides for compact high- repetition-rate x-ray sources,” J. Phys. B: At. Mol. Opt. Phys. 47, 234002 (2014).

  14. M.-W. Lin, Y.-L. Liu, S.-H. Chen, and I. Jovanovic, “Particle-in-cell simulations of quasi-phase matched direct laser electron acceleration in density-modulated plasma waveguides,” Phys. Plasmas 21, 093109 (2014).

  15. A. Rakhman, M.-W. Lin, and I. Jovanovic, “Angle-multiplexed spatial-spectral interferometry for simultaneous measurement of spectral phase and polarization state,” Opt. Express 21, 26897 (2013).

  16. M.-W. Lin and I. Jovanovic, “Test particle simulation of direct laser acceleration in a density- modulated plasma waveguide,” Phys. Plasmas 19, 113104 (2012).

  17. C.-H. Pai, Y.-Y. Chang, L.-C. Ha, Z.-H. Xie, M.-W. Lin, J.-M. Lin, Y.-M. Chen, G. Tsaur, H.-H. Chu, S.-H. Chen, J.-Y. Lin, J. Wang, and S.-Y. Chen, “Generation of intense ultrashort mid-infrared pulses by laser-plasma interaction in the bubble regime,” Phys. Rev. A 82, 063804 (2010).

  18. C.-T. Hsieh, M.-W. Lin, C.-L. Chang, Y.-C. Ho, S.-Y. Chen, J. Wang, M.-C. Chou, J.-Y. Lin, C.-H. Pai, P.-H. Lin, L.-C. Tai, S.-H. Chen, G.-Y. Tsaur, C.-C. Kuo, and T.-Y. Chien, “Application of laser- fabricated plasma structures in laser-wakefield accelerators, x-ray lasers, and plasma nonlinear optics,” J. Korean Phys. Soc. 53, 3719 (2008).

  19. C.-H. Pai, M.-W. Lin, L.-C. Ha, S.-T. Huang, Y.-C. Tsou, H.-H. Chu, J.-Y. Lin, J. Wang, and S.-Y. Chen, “Backward Raman amplification in a plasma waveguide,” Phys. Rev. Lett. 101, 065005 (2008).

  20. K.-H. Lee, C.-H. Pai, M.-W. Lin, L.-C. Ha, J.-Y. Lin, J. Wang, and S.-Y. Chen, “Degenerate four-wave mixing mediated by ponderomotive-force-driven plasma gratings,” Phys. Rev. E 75, 036403 (2007).

  21. C.-C. Kuo, C.-H. Pai, M.-W. Lin, K.-H. Lee, J.-Y. Lin, J. Wang, and S.-Y. Chen, “Enhancement of relativistic harmonic generation by an optically preformed periodic plasma waveguide,” Phys. Rev. Lett. 98, 033901 (2007).

  22. M.-W. Lin, Y.-M. Chen, C.-H. Pai, C.-C. Kuo, K.-H. Lee, J.-Y. Lin, J. Wang, and S.-Y.Chen, “Pro- grammable fabrication of spatial structures in a gas jet by laser machining with a spatial light mod- ulator,” Phys. Plasmas 13, 110701 (2006).

  23. C.-H. Pai, C.-C. Kuo, M.-W. Lin, J.-Y. Lin, J. Wang, and S.-Y. Chen, “Tomography of high harmonic generation in a cluster jet,” Opt. Lett. 31, 984 (2006).

  24. C.-H. Pai, S.-Y. Huang, C.-C. Kuo, M.-W. Lin, C.-H. Lee, J.-Y. Lin, J. Wang, and S.-Y. Chen, “Fab- rication of spatial transient-density structures as high-field plasma photonic devices,” Phys. Plasmas 12, 070707 (2005).

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