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Vacuum Electronics

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Name: Tsun-Hsu Chang

Highlight: Frequency-tunable, High-power Terahertz Gyrotrons Microwave/

                  Material Interaction and Characterization Microwave Physics and

                  Applications(detail_ppt)

Personal website: http://www.phys.nthu.edu.tw/~hf5/

Contact number: 886-3-5742978 (office) 886-3-5742560(lab)

Email: thschang@phys.nthu.edu.tw

Vacuum Electronics Publication

Journal Publications:

25. Ferrite materials and applications

  Tsun-Hsu Chang

  in Electromagnetic Materials, IntechOpen, 2019

24. Gain and bandwidth of the TM-mode gyrotron amplifiers

  Tsun-Hsu Chang and Kun-Jie Xu

  Physics of Plasmas, 25, 112109 (2018)

23. Wide-range permittivity measurement with a parametric-dependent cavity

  H. W. Chao and T. H. Chang

  IEEE Transactions on Microwave Theory and Techniques, 66(10), pp. 4641-4648 (2018)

22. Permeability measurement and control for epoxy composites

  Tsun-Hsu Chang*, Cheng-Hung Tsai, Wei-Syuan Wong, Yen-Ren Chen, and Hsien-Wen Chao

  Applied Physics Letters, 111, 094102 (2017)

21. Theoretical Study of a 4th Harmonic 400 GHz Gyrotron Backward-Wave

  Oscillator

  C. H. Du, H. Lee, X. B. Qi, P. K. Liu, and T. H. Chang

  IEEE Trans. on Electron Devices, 62(1), pp. 207-212 (2015, Jan)

20. Modal analysis and efficient coupling of TE01 mode in small-core THz Bragg

  fibers

  H. Y. Yao, J. Y. Jiang, Y. S. Cheng, Z. Y. Chen, T. H. Her, and T. H. Chang

  Optics Express, 23(21), 27266. (2015, Oct)

19. Isolated Few-cycle Radiation from Chirped-pulse Compression of Superradiant

  Free-electron Laser

  Yen-Chieh Huang, Zhen Zhang, Chia-Hsiang Chen, Ming-Hsiung Wu

  Physical Review ST AB 18, 080701 (2015)

18. Short-bunch Generation from an RF Photoinjector with Injection Phase

  Compensation

  F.H. Chao, C.H. Chen, Y.C. Huang, P.J. Chou

  Physical Review ST AB 18, 051301 (2015)

17. Dielectric Laser Accelerator

  R. Joel England, Robert J. Noble, Karl Bane, David Dowell, Cho-Kuen Ng, James E. Spencer, Sami   

  Tantawi, Ziran Wu, Robert L. Byer, Edgar Peralta, Ken Soong, Chia-Ming Chang, Behnam

  Montazeri, Stephen J. Wolf, Benjamin Cowan, Jay Dawson, Wei Gai, Peter Hommelhoff, Yen-Chieh

  Huang, Chunguang Jing, Christopher McGuinness, Robert B. Palmer, James Rosenzweig, Gil

  Travish, Amit Mizrahi, Levi Schachter, Christopher Sears, Gregory R. Werner, Rodney B. Yoder

  Review of Modern Physics 86, OCTOBER–DECEMBER 2014, pp. 1337-1389

16. Photo-plasma-switched radiation antenna

  C.-H. Chen, K.-Y. Huang, M.-H. Wu & Y.-C. Huang

  Journal of Electromagnetic Waves and Applications, Vol. 26, Nos. 17–18, 2452–2458 (2012)

15. Laser-beat-wave Photoinjector

  Yen-Chieh Huang, Chia-Hsian Chen, An-Ping Lee, Wai-Keung Lau, and Sheng-Guang Liu

  Nuclear Instruments and Methods in Physics Research A 637 (2011) S1–S6

14. Generation of pre-bunched electron beams in photocathode RF gun for THz-FEL

  superradiation

  Shengguang Liu, Yen-Chieh Huang

  Nuclear Instruments and Methods in Physics Research A 637 (2011) S172–S176

13. Desktop MW Superradiant Free-electron Laser at THz Frequencies

  Yen-Chieh Huang

  Applied Physics Letters, 96, 231503 (2010)

12. Laser-beat-wave bunched beam for compact superradiance sources

  Y. C. Huang

  International Journal of Modern Physics B, Vol. 21 Issue 3/4, p277-286 (2007)

11. Mode and gain analysis of grating-waveguide free-electron laser

 Y. Y. Lin, Y. C. Huang

  Physical Review ST AB 10, 030701 (2007)

10. Maximization of FEL Gain for a Hole-coupled Resonator

Y.C. Huang, R.H. Pantell, J.F. Schmerge, and J. Feinstein

Nucl. Instrum. & Meth. A 358, 1995, pp. 315-318

9. Preliminary Emission Characteristic Measurements for a $300k FIR FEL

 J. Lewellen, J.F. Schmerge, Y.C. Huang, J. Feinstein, and R.H. Pantell

 Nucl. Instrum. & Meth. A 358, 1995, pp. 24-26

8. The Free-electron Laser as Laboratory Instrument

 J. F. Schmerge, J. Lewellen, Y.C. Huang, J. Feinstein, and R.H. Pantell

 IEEE J. Quantum Electronics, vol. 31, NO. 6, June 1995, pp. 1166-1171

7. Electron Beam Characterization for a Far Infrared Free-electron Laser

 Y.C. Huang, H.C. Wang, R.H. Pantell, J. Feinstein, J.F. Schmerge, and J. Lewellen

 IEEE J. Quantum Electronics, vol. 31, NO. 9, Sep. 1995, pp. 1637-41

6. A Staggered-array Wiggler for Far Infrared, Free-electron Laser Operation

 Y.C. Huang, H.C. Wang, R.H. Pantell, and J. Feinstein

 IEEE J. Quantum Electronics, Vol. 30, NO. 5, 1289-1294 (1994)

5. Performance Characterization of a Far Infrared, Staggered-array Wiggler

 Y.C. Huang, H.C. Wang, R.H. Pantell, J. Feinstein, and J. Harris

 Nucl. Instrum. and Methds, A341 (1994) 431-435

4. An Accelerator/Wiggler for High Efficiency FEL Operation

 J.F. Schmerge, J. Lewellen, Y.C. Huang, R.H. Pantell, and J. Feinstein

 Nucl. Instrum. and  Methds, A341 (1994) 335-340

3. High Efficiency FEL Using Microwave Reacceleration

 J.F. Schmerge, Y.C. Huang, R.H. Pantell, and J. Feinstein

 Nucl. Instrum. and Methds, A331 (1993) 558-565

2. A Compact Far Infrared Free-electron Laser

 Y.C. Huang, J.F. Schmerge, J. Harris, R.H. Pantell, and J. Feinstein

 Nucl. Instrum. and Meths., A318 (1992) 765 – 771

1. A Solenoid-derived wiggler

 A.H. Ho, R.H. Pantell, J. Feinstein, and Y.C. Huang

 IEEE J. Quantum Electronics, Vol. 27, NO. 12, Dec. 1991

 

 

Conference Publications:

4. Frequency-Tunable, Terahertz Reflective Gyro-BWO

  Cheng-Hung Tsai, Tsun-Hsu Chang, and Yoshinori Tatematsu

  IRMMW-THz 2019 (oral, 1-6 Sep, 2019, Paris, France)

3. TM-Mode Gyrotrons

  Tsun-Hsu Chang

  IRMMW-THz 2019 (Posters, 1-6 Sep, 2019, Paris, France)

2. Characterization of a Low-Voltage Gyrotron Backward-Wave Oscillator

  Chien-Lun Hung, Yi-Sheng Yeh, Tsun-Hsu Chang

  IRMMW-THz 2019 (Posters, 1-6 Sep, 2019, Paris, France)

1. Characterization of Epoxy-Silver Nanoparticles Composites in Microwave and

Millimeter wave Regime

  Shih-Chieh Su and T. H. Chang

  IRMMW-THz 2019 (Posters, 1-6 Sep, 2019, Paris, France)

 

 

Patent Publications:

 

Vacuum Electronics