Ming-Wei Lin

Ming-Wei Lin Associate Professor

Address:LTM Building Room 609
E-mail:mwlin@mx.nthu.edu.tw
Telephone No.:03-5715131 ext.35555
Laboratory:Photon Source and Radiation Application Laboratory

Discipline

Interaction of Radiation with Matter, Engineering Mathematics I, Introduction to Nuclear Engineering, Applied Photonics

Specialty

Ultrafast optics, nonlinear optics, plasma physics and simulations, laser-based particle acceleration, radiation generation/detection

Academic Degrees
  1. U.S.A, Pennsylvania State University, Nuclear Engineering, Ph.D. 2010-08~2015-05

Journal Articles
  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).