Department of Electronic Engineering, National Kaohsiung University of Science and Technology(Jiangong Campus)

AI資安組, 電子組

江柏叡
Po-Jui Chiang - AI資安組, 電子組

基本資料研究興趣研究計畫重要著作其他資料

英文名字:Po-Jui Chiang
分  機:15616
電子郵件:pjchiang@nkust.edu.tw
學  歷:國立台灣大學電機 博士
專  長:

計算電磁
光主被動元件設計
高頻微波電路設計

 

重要著作

 期刊論文:

 1. C. L. Tseng, Y. W. Lin, P. J. Chiang*, Y. T. Cheng, J.-J. Jou and C.-K. Liu “Wavelength-adjustable all optical wavelength conversion using a tunable fiber laser and an electro-absorption modulator,” Optica Applicata, vol. 46, issue 4, 2016. (SCI)

2. Y. W. Lin, C.L. Tseng and P.J. Chiang*, “The  Effect of Blended Learning on Student Achievement and Attitudes in a Seventh Grade Mathematics Course at a Public Secondary School in Taiwan,”   Eurasia Journal of Mathematics, Science and Technology Education, March (2016). (accepted)(SSCI) (rank: 76/224)

3. P. J. Chiang and S.  W. Chang, “Efficient photonic-crystal mode solver: eigenvalue rather than generalized eigenvalue approach,” IEEE J. Sel. Top. Quantum Electron., accepted (2016). (SCI) (Optics rank: 4/70)

4. H. Yang, M. W. Tsai , J. W. Lin, P. J. Chiang, ” ZnO:Ga nanowires with low turn-on field for field-emission lighting,” Appl. Surf. Sci. 356, (2015). (SCI)

5. H. Yang, M. W. Tsai, J. W. Lin, P.J. Chiang, “ZnO:Ga nanowires with low turn-on field for field-emission lighting,” Ceramics International 41, (2015). (SCI)

6. P. J. Chiang and S. W. Chang, “Design of metal-dielectric grating lasers only supporting surface-wave-like modes,” Opt. Express, 22, 27845 (2014). (SCI)(Optics rank: 3/70, Impact factor: 3.278)

7. P. J. Chiang  and S. W. Chang, “Frequency-domain formulation of photonic crystals using sources and gain,” Optics Express, Vol. 21, No. 2,   Jan. 2013.  (SCI)(Optics rank: 3/70, Impact factor: 3.278)

8. P. J. Chiang, Y. C. Chiang, N. H. Sun, and S. X. Hong, “Analysis of optical waveguides with ultra-thin metal film based on the multidomain pseudospectral frequency-domain method,” Optics Express, Vol. 19, No. 5, Feb. 2011.  (SCI)(Optics rank: 3/70, Impact factor: 3.278)

9. P. J. Chiang and H. C. Chang, “A high-accuracy pseudospectral full-vectorial leaky optical waveguide mode solver with carefully implemented UPML absorbing boundary conditions,” Optics Express, Vol. 19, No. 2, Jan. 2011. (SCI)(Optics rank: 3/70, Impact factor: 3.278)

10. P. J. Chiang and Y. C. Chiang, “Pseudospectral Frequency-Domain Formulae Based on Modified Perfectly Matched Layers for Calculating both Guided and Leaky Modes,” IEEE Photonic Technology Letters, Vol. 22, No. 12, Jun. 2010. (SCI)

11. W. Chen, C. M. Chiu, C. H. Lai, J. L. Kuo, P. J. Chiang, H. C. Chang, and C. K. Sun, “Sub-Wavelength-Plastic Fiber Based Terahertz Coupler,” IEEE/OSA Journal of Lightwave Technology, Vol. 27, No. 11, 1489–1494, Jun. 2009.(SCI)

12. P. J. Chiang, C. L. Wu, C. H. Teng, C. S. Yang, and H. C. Chang, “Full-Vectorial Optical Waveguide Mode Solvers Using Multidomain Pseudospectral Frequency-Domain (PSFD) Formulations,” IEEE Journal of Quantum Electronics, vol. 44, no. 1, pp. 56–66, Jan. 2008. (SCI)

13. P. J. Chiang, C. P. Yu, and H. C. Chang, “Analysis of Two-Dimensional Photonic Crystals Using a Multidomain Pseudospectral Method,” Physical Review E, vol. 75, no. 3, pp. 026703-1–026703-14, 2007. (SCI)

14. P. J. Chiang, C. P. Yu, and H. C. Chang, “Robust Calculation of Chromatic dispersion Coefficients of Optical Fibers from Numerically Determined Effective Indices Using Chebyshev-Lagrange Interpolation Polynomials,” IEEE/OSA Journal of Lightwave Technology, vol. 24, no. 11, pp. 4411–4416, Nov. 2006. (SCI)

15. H. C. Chang, P. J. Chiang, C. S. Yang, C. L. Wu, and C. H. Teng, “Full-Vectorial Optical Waveguide Eigenmode Solvers Based on Multidomain Pseudospectral Method,” International Journal of Microwave and Optical Technology, vol. 1, no. 2, pp. 628–632, Aug. 2006.

研討會論文:

1.     P. J. Chiang and S. W. Chang, “Frequency-domain formulation of photonic  eriodic structures–viewpoints of sources and gain,”  International conferenceof  optics  and   photonics, Taipei Taiwan, Dec. 6- (2012).

2.     P. J. Chiang, Nai-Hsiang Sun, Chia-Ming Hu, “Improving the Pseudospectral Optical Waveguide Mode Solver Using the Penalty Skill”, Progress in Electromagnetics Research Symposium (PIERS), pp.1A1-5, Suzhou, China, 2011.08

3.     P. J. Chiang, Nai-Hsiang Sun, “Computing Leaky Mode Based on Pseudospectral Method”, Progress in Electromagnetics Research Symposium (PIERS), pp.3P3-2, Xi’an, China, 2010.03

4.     P. J. Chiang, N. H. Sun, H. C. Chang, “Accurate Analysis of Plasmonic Structures Using the Multidomain”, in OSA 2010 Integrated Photonics Research and Applications (IPRA ’10)’.

5.     P. J. Chiang, N. H. Sun, H. C. Chang, “The Effect of Choosing PML Reflection-Coefficient Value on Numerical Accuracy in the Pseudospectral Leaky Waveguide Mode Solver”, in OSA 2009 Integrated Photonics Research and Applications (IPRA ’09)’.

6.     P. J. Chiang, N. H. Sun, H. C. Chang, “Using the Penalty Method for Imposing Boundary Conditions in the Pseudospectral Optical Waveguide Mode Solver ”, in OSA 2008 Integrated Photonics Research and Applications (IPRA ’08)’.

7.     Y. C. Tsai, B. R. Jiang (P. J. Chiang), and H. C. Chang, “On the Convergence Characteristics of the Modal Analysis of Fused Fiber-Optic Couplers,” in Proceedings of the 5th Pacific Rim Conference on Lasers and Electro-Optics (CLEO/PR 2003), Vol. II, p. 599, Taipei, Taiwan, R.O.C., December 15–19, 2003.

8.     H. C. Chang and P. J. Chiang, “Calculation of Photonic Crystal Band Diagrams Using a Multidomain Pseudospectral Method,” in Proceedings of the 13th International Workshop on Optical Waveguide Theory and Numerical Modelling (OWTNM 2005), paper Sa2-6, Grenoble, France, April 8–9, 2005.

9.     P. J. Chiang, C. S. Yang, C. L. Wu, C. H. Teng, and H. C. Chang, “Application of Pseudospectral Methods to Optical Waveguide Mode Solvers,” in OSA 2005 Integrated Photonics Research and Applications (IPRA ’05) Technical Digest (CD-ROM), paper IMG4, San Diego, California, April 11–13, 2005.

10.   H. C. Chang, P. J. Chiang, C. S. Yang, C. L. Wu, and C. H. Teng, “Full-vectorial Optical Waveguide Eigenmode Solvers Based on Multidomain Pseudospectral Methods,” to be presented at the 10th International Symposium on Microwave and Optical Technology (ISMOT-2005), Fukuoka, Japan, August 22–25, 2005. (Invited paper)

11.   H. C. Chang and P. J. Chiang, “Pseudospectral Analysis of Photonic Crystal Structures,” presented at Workshop on Photonic Crystals and Nano-Photonics, p.11 in Abstract Book, National Taiwan University, Taipei, Taiwan, R.O.C., November 4–5, 2005. (Invited paper)

12.   P. J. Chiang and H. C. Chang, “Modal Analysis of Fused-Fiber-Coupler Structures Using Pseudospectral Methods,” Taiwan ’05 (OPT ’05) (CD-ROM), paper B-SA-IV12-1, Tainan, Taiwan, R.O.C., December 9–10, 2005.

13.   H. C. Chang and P. J. Chiang, “A Multidomain Pseudospectral Method for the Analysis of Unconventional Optical Waveguide Structures,” presented at Symposium on Optical Communication Technologies, pp.29–30 in Symposium Digest, National Sun Yat Sen University, Kaohsiung, Taiwan, R.O.C., February 23–24, 2006. (Invited paper)

14.   P. J. Chiang and H. C. Chang, “Analysis of Leaky Optical Waveguides Using Pseudospectral Methods,” in OSA 2006 Integrated Photonics Research and Applications (IPRA ’06) Technical Digest (CD ROM), paper ITuA3 , Uncasville, Connecticut, April 24–26, 2006.

15.   P. J. Chiang, C. P. Yu, and H. C. Chang, “Robust Numerical Calculation of Chromatic Dispersion Coefficients of Optical Fibers Using Chebyshev-Lagrange Interpolation Polynomials,” in The 11th OptoElectronics and Communications Conference (OECC 2006) Technical Digest (CD ROM), paper 3P-012, Kaohsiung, Taiwan, R.O.C., July 3–7, 2006.

16.   H. C. Chang and P. J. Chiang, “Full-Vectorial Pseudospectral Frequency-Domain Method for Optical Waveguide Analysis,” in 2006 Progress in Electromagnetics Research Symposium (PIERS 2006-TOKYO) Abstracts, p. 235, Tokyo, Japan, August 2–5, 2006.

17.   H. C. Chang, C. P. Yu, P. J. Chiang, and S. M. Hsu, “Development and Applications of High-Accuracy Optical Waveguide Eigenmode Solvers,” presented at International Workshop on Photonics and Display Technologies, National Taiwan University of Science and Technology, Taipei, Taiwan, R.O.C., September 22–23, 2006. (Invited paper)