共28 頁第1頁 研究成果目錄: 一...
TRANSCRIPT
-
共 28 頁第1頁研究成果目錄:(一)論文及著述 A.期刊論文
1. C. L. Tang, C. F. Lin, T. Fujita, and A. Schremer, “Rapid beam scanning using a mode-locked laser driven laser array,” IEEE J. Quantum Electron. 24, pp. 1955-1957, 1988.
2. A. Schremer, T. Fujita, C. F. Lin, and C. L. Tang, “Instability threshold resonsnces in directly
modulated external-cavity semiconductor lasers,” Appl. Phys. Lett., 1988.
3. C. F. Lin, "Superluminescent diodes with angled facet etched by chemically assisted ion beam etching," IEE Electron. Lett. 27, pp. 968-969, 1991.
4. W. H. Loh and C. F. Lin, "Optical pulse generation with a semiconductor laser in a coupled-cavity configuration," Pure Appl. Opt. 1, pp. 181-184, 1992.
5. C. F. Lin, "The influence of facet roughness on the reflectivities of etched- angled facets for superluminescent diodes and optical amplifiers," IEEE Photonics Technol. Lett. 4, pp. 127-129, 1992.
6. C. F. Lin and C. L. Tang, "Colliding pulse mode locking of a semiconductor laser in an external ring cavity," Appl. Phys. Lett. 62, pp. 1053-1055, 1993.
7. C. F. Lin and C. L. Tang, "Generation of ultrashort pulses from a superluminescent diode with a monolithically integrated absorber in a coupled-cavity configuration," Appl. Phys. Lett. 63, pp. 2594-2596, 1993.
8. Ching-Fuh Lin and Chaur-Shiuann Juang, “Superluminescent diode with bent waveguide,” IEEE
Photon. Technol. Let. Vol. 8, pp.206-208, 1996. (SCI, EI) NSC-84-2215-E-002-013
9. Ching-Fuh Lin and Pei-Cheng Ku, “Analysis of stability in two-mode laser systems,” IEEE J.
Quantum Electron. 32, pp. 1377-1382, 1996.(SCI, EI) NSC-85-2112-M-002-018
10. Ching-Fuh Lin, Bor-Lin Lee, and Bor-Jian Lin, “Broadband superluminescent diodes fabricated on a
substrate with asymmetric dual quantum wells,” IEEE Photon. Technol. Lett. 8, pp. 1456-1458, 1996.
(SCI, EI) NSC-85-2215-E-002-002
11. Pei-Cheng Ku and Ching-Fuh Lin, “Multiple cross switching in a two-mode semiocnudctor laser,”
Appl. Phys. Lett. 69, pp.3984-3986, 1996. (SCI, EI) NSC-85-2112-M-002-018
12. Ching-Fuh Lin and Bor-Lin Lee, “Bi-directional switching based on semiconductor laser/amplifer
with shallow-etched bending ridge waveguide,” Appl. Phys. Lett. 71, Oct, 1997. (SCI, EI) NSC
86-2112-M-002-025.
13. Ching-Fuh Lin and Bor-Lin Lee, “Extremely broadband AlGaAs/GaAs superluminescent diodes,”
Appl. Phys. Lett. 71, pp. 1598-1600., 1997. (SCI, EI) NSC-86-2215-E-002-004
14. Miin-Jang Chen and Ching-Fuh Lin, “Theory for passively mode-locked semiconductor lasers
-
共 28 頁第2頁including the effects of gain and absorption saturation, saturable absorber recovery
time, and chirp,” Journal of Chinese Institute of Electrical Engineering, 1997.
NSC-86-2215-E-002-004
15. Ching-Fuh Lin, Pei-Cheng Ku, Yu-Li Hsueh, and Chaur-Shiuann Juang, “Optical switching in
two-mode semiocnductor lasers via gain or loss modulation,” IEE Electron. Lett. 33, pp.682-684,
1997. (SCI) NSC-85-2112-M-002-018
16. Ching-Fuh Lin, "Mode locking of semiconductor lasers in a coupled-cavity configuration with a
strongly coupled empty auxiliary cavity," J. Opt. Soc. Am. B 14, pp. 175-179, 1997. (SCI, EI)
NSC83-0417-E-002-011
17. Bor-Lin Lee and Ching-Fuh Lin, “Wide range tunable semiconductor lasers using asymmetric dual
quantum wells,” IEEE Photonics Technol. Lett. 10, pp. 322-324, 1998. (SCI,EI)
NSC86-2215-E-002-004
18. Jie-Wei Lai and Ching-Fuh Lin, “Carrier Diffusion Effect in Flared Semiconductor-Laser
Amplifier,” IEEE J. Quantum Electron. 34, pp.1247-1256, 1998. (SCI,EI) NSC86-2215-E-002-004
19. Bor-Lin Lee, Ching-Fuh Lin, and Jie-Wei Lai, “Experimental evidence of nonuniform carrier
distribution in multiple-quantum well laser diodes,” IEE Electron. Lett. 34, pp.1230-1231, 1998.
(SCI) NSC87-2215-E-002-012
20. Hsu-Feng Chou, Ching-Fuh Lin, and Gin-Chung Wang, “An iterative finite difference beam
propagation method for modeling second-order nonlinear effects in optical waveguides,” IEEE J.
Lightwave Technol. 16, pp. 1686-1693, 1998. (SCI) (NSC86-2215-E-002-004)
21. Ching-Fuh Lin, Miin-Jang Chen, and Bor-Lin Lee, “Wide-range tunable dual-wavelength
semiconductor laser using asymmetric dual quantum wells,” IEEE Photonics Technol. Lett. 10, pp.
1208-1210, 1998.(SCI, EI) (NSC87-2215-E-002-012)
22. 李柏霖和林清富, "被動式半導體雷射鎖模之研究與應用," 工程科技通訊, 第三十期, 1998.
NSC85-2215-E-002-002
23. Hsu-Feng Chou, Ching-Fuh Lin, and Shin Mou, “Comparisons of finite difference beam propagation
methods for modeling second-order nonlinear effects,” IEEE J. Lightwave Technol., 17, pp.
1481-1486, 1999. (SCI) (NSC87-2215-E-002-021)
24. Ching-Fuh Lin, Bor-Lin Lee, and Miin-Jang Chen, "Broadly tunable semiconductor lasers using
asymmetric dual quantum wells”, Opt. Comm. 171, pp. 271-277, December, 1999. (SCI)
(NSC88-2215-E-002-021)
25. 林清富、周旭峰和牟昕 ”分析準相位匹配非線性光波轉換之有限差分光束傳播法” 工程科技
通訊, 第三十一期, 1999. (NSC 88-2215-E-002-021)
26. C. W. Liu, M. H. Lee, Miin-Jang Chen, I. C. Lin, and Ching-Fuh Lin, “Room-Temperature
-
共 28 頁第3頁electroluminescence from electron-hole plasmas in the metal oxide silicon tunneling
diodes,” Appl. Phys. Lett., 76, pp. 1516-1518, 2000. (SCI, EI) (NSC 88-2215-E-002-021)
27. Ching-Fuh Lin, Cheewee Liu, Miin-Jang Chen, Ming-Hung Lee, and I-Cheng Lin, “Tunneling
Induced Electroluminescence from Metal-Oxide-Semiconductor Structure on Silicon”, SPIE,
Proceedings, Vol. 3953, pp. 37-45, 2000. (NSC 88-2215-E-002-021)
28. Ching-Fuh Lin, C. W. Liu, Miin-Jang Chen, M. H. Lee, and I. C. Lin, “Electroluminescence at Si
Bandgap Energy Based on Metal-Oxide-Silicon Structures,” J. Appl. Phys. 87, pp. 8793-8795, 2000.
(SCI) (NSC 88-2215-E-002-021)
29. Ching-Fuh Lin, C.W. Liu, Miin-Jang Chen, M.H. Lee, and I.C. Lin, "Infrared electroluminescence
from metal-oxide-semiconductor structures on silicon” Journal of Physics: Condensed Matter 12,
L205-L210, 2000. (SCI) (NSC 88-2215-E-002-021)
30. Bor-Lin Lee and Ching-Fuh Lin, “Short-pulse generation with broadband tunability from
semiconductor laser in an external ring cavity,” IEEE Photon. Technol. Lett. 12, pp. 618-620, 2000.
(SCI, EI) (NSC 88-2215-E-002-021)
31. C. W. Liu, Miin-Jang Chen, I. C. Lin, M. H. Lee, and Ching-Fuh Lin, “Temperature dependence of
the electron-hole-plasma electroluminescence from the metal oxide silicon tunneling diodes,” Appl.
Phys. Lett 77, pp. 1111-1113, 2000. (SCI, EI) (NSC 88-2215-E-002-021)
32. Bor-Lin Lee and Ching-Fuh Lin, “Novel self-hybrid mode-locking of semiconductor lasers in an
external cavity,” IEEE Photon. Technol. Lett. 12, pp. 1243-1245, 2000. (SCI, EI) NSC 88-2112-M-002-038.
33.C. W. Liu, M-J Chen, I. C. Lin, M. H. Lee, and Ching-Fuh Lin, "Room-temperature
electroluminescence from the metal oxide silicon tunneling diodes on (110) substrates," Jpn J. Appl.
Phys 39, No. 10B, pp.L1016 - L1018, Oct. 2000. (SCI) (NSC 88-2215-E-002-021)
34. C.W. Liu, M. H. Lee, Miin-Jang Chen, Ching-Fuh Lin, M.Y. Chern, “Roughness-enhanced
electroluminescence from metal oxide silicon tunneling diodes,” IEEE Electron. Device Lett., 21, pp
601-603, 2000. (SCI) (NSC 88-2215-E-002-021)
35. Bing-Ruey Wu, Ching-Fuh Lin, Lih-Wen Laih and Tien-Tsorng Shih, “Extremely Broadband
InGaAsP/InP Superluminescent Diodes, “ IEE Electron. Lett. 36, pp. 2093-2095, 2000. (SCI) (NSC
88-2215-E-002-021)
36. C. W. Liu, S. T. Chang, W. T. Liu, Miin-Jang Chen, and Ching-Fuh Lin, "Hot carrier recombination
model of visible electroluminescence from metal oxide silicon tunneling diodes," Appl. Phys, Lett.77,
pp. 4347-4349, 2000. (SCI, EI) (NSC 88-2215-E-002-021)
37. Ching-Fuh Lin, Miin-Jang Chen, Eih-Zhe Liang, W. T. Liu, and C. W. Liu, “Reduced Temperature
-
共 28 頁第4頁Dependence of Luminescence from Silicon due to Field-Induced Carrier
Confinement,” Appl. Phys. Lett, 78, pp.261-263, 2001. (SCI, EI) (NSC89-2215-E-002-059)
38. Miin-Jang Chen, Ching-Fuh Lin, W. T. Liu, S. T. Chang, and C. W. Liu, ”Visible and Band-Edge
Electroluminescence from ITO/SiO2/Si Metal-Oxide-Semiconductor Structures,” J. Appl. Phys. 89,
pp. 323-326, 2001. (SCI, EI) (NSC89-2215-E-002-059)
39. Miin-Jang Chen, Eih-Zhe Liang, Shu-Wei Chang, and Ching-Fuh Lin, “Model for Band-Edge
Electroluminescence from Metal-Oxide-Semiconductor Silicon Tunneling Diodes,” J. Appl. Phys. 90,
pp. 789-793, 2001. (SCI, EI) (NSC89-2215-E-002-059)
40. C. W. Liu, C.-H. Lin, M. H. Lee, S. T. Chang, Y. –H. Liu, Miin-Jang Chen, and Ching-Fuh Lin,
“Enhanced reliability of electroluminescence from metal-oxide-silicon tunneling diodes by
deuterium incorporation,” Appl. Phys. Lett. 78, pp. 1397-1399, 2001. (SCI, EI)
(NSC89-2215-E-002-059)
41. Ching-Fuh Lin, Miin-Jang Chen, Shu-Wei Chang, Peng-Fei Chung, Eih-Zhe Liang, Ting-Wien Su,
and C. W. Liu, “Electroluminescence at Si Bandgap Energy from Mechanically Pressed ITO/Si
Contact”, Appl. Phys. Lett. 78, pp.1808-1810, 2001. (SCI, EI) (NSC89-2215-E-002-059)
42. Shing Mou, Ching-Fuh Lin, and Hsu-Feng Chou, “Quasi-3D beam propagation method for
modeling quasi-phase-matched second-order nonlinear interaction,” IEEE Journal of Lightwave
Technol. May, 2001. (SCI, EI) (NSC89-2215-E-002-059)
43. Ching-Fuh Lin, Bing-Ruey Wu, Lih-Wen Laih, and Tien-Tsorng Shih, “Sequence Influence of
Nonidentical InGaAsP Quantum Wells on Broadband Characteristics of Semiconductor Optical
Amplifiers/ Superluminescent Diodes,” Opt. Lett. 26, pp. 1099-1101, 2001. (SCI, EI) (NSC89-2112-M-002-076)
44.Miin-Jang Chen, Ching-Fuh Lin, M. H. Lee, S. T. Chang and C. W. Liu, “Carrier lifetime
measurement on electroluminescent metal–oxide–silicon tunneling diodes,” Appl. Phys. Lett. 79, pp.
2264-2266, 2001. (SCI, EI) (NSC89-2215-E-002-059)
45. Ching-Fuh Lin, Bin-Ruay Wu, Lih-Wen Laih, and Tien-Tsorng Shih, “Extremely broadband
superluminescent diodes/semiconductor laser amplifiers using nonidentical InGaAsP quantum wells”,
SPIE, Proceedings, Vol. 4292 (Optoelectronic Interconnects VIII), pp. 172-181, 2001. (EI)
(NSC89-2215-E-002-059)
46. Ching-Fuh Lin, Miin-Jang Chen, Ming-Hung Lee, and Cheewee Liu, “Electroluminescence at Si
Bandgap Energy from Metal-Oxide-Semiconductor Tunneling Diodes”, SPIE, Proceedings, Vol.
4293, pp. 147-154, 2001. (EI) (NSC89-2215-E-002-059)
47. Ching-Fuh Lin and Bin-Ruay Wu, “Characteristics of Laser Diodes Influenced by
Electron-Dominant Nonuniform Carrier Distribution”, SPIE, Proceedings, Vol. 4279, pp. 659-669,
2001. (EI) (NSC89-2112-M-002-076)
-
共 28 頁第5頁48. Ching-Fuh Lin, Yi-Shin Su, and Bing-Ruay Wu, "External-cavity semiconductor
laser tunable from 1.3 m to 1.54 m for optical communication", IEEE Photonics Technology
Letters, pp. 3-5, 2002. (SCI, EI) (NSC89-2215-E-002-059)
49. Ching-Fuh Lin, Peng-Fei Chung, Miin-Jang Chen, and Wei-Fang Su, "Nanoparticle-modified
metal-oxide-Silicon structure enhancing Si band-edge electroluminescence to nearly lasing actions”
Opt. Lett. 27, pp.713-715, 2002. (SCI, EI) (NSC90-2622-L-002-002)
50. Yi-Shin Su, Ching-Fuh Lin, Di-Ku Yu, and Bin-Ruay Wu, “Semiconductor Lasers Tunable from
1.3 m to 1.54 m for Optical Communication, “ SPIE, Proceedings, Vol. 4653, 2002. (EI)
(NSC89-2215-E-002-059)
51. Peng-Fei Chung, Ting-Wien Su, Ching-Fuh Lin, Miin-Jang Chen, and Wei-Fang Su,
“Nano-structured Metal-Oxide-Semiconductor Devices for Efficient Band-edge
Electroluminescence,” SPIE, Proceedings, Vol. 4654, 2002. (EI) (NSC89-2215-E-002-059)
52. Ching-Fuh Lin, Yi-Shin Su, Di-Ku Yu, and Bin-Ruay Wu, “Reducing Temperature Dependence of
Semiconductor Lasers Using Nonidentical Multiple Quantum Wells,” SPIE, Proceedings, Vol. 4651,
2002. (EI) (NSC89-2112-M-002-076) 53. Eih-Zhe Liang, Ching-Fuh Lin, and Wei-Fang Su, “CdS Nanoparticles Light-emitting Diode on Si”,
SPIE, Proceedings, Vol. 4641, 2002. (EI) (NSC89-2215-E-002-059)
54. Eih-Zhe Liang, Ching-Fuh Lin, Sheng-Ming Shih, and Wei-Fang Su, “The significant influence of
surface states on the electroluminescence of CdS nanoparticles,” Proceedings of SPIE, Vol. 4808, pp.
156-164, 2002. (EI) (NSC89-2215-E-002-059)
55. S. T. Chang, K.F. Chen, C. R. Shie, C. W. Liu, Miin-Jang Chen, and Ching-Fuh Lin, “The
band-edge light emission from the metal-oxide-silicon tunneling diode on (110) substrates,”
Solid-State Electronics, 46 (8): 1113-1116 AUG 2002.
56. M. H. Lee, K. F. Chen, C. C. Lai, C. W. Liu, W. W. Pai, Miin-Jang Chen, and Ching-Fuh Lin, “The
roughness-enhanced light emission from metal-oxide-silicon light-emitting diodes using very high
vacuum prebake,” Japanese Journal of Applied Physics Part 2-Letters 41 (3B): L326-L328 MAR 15
2002.
57. Ching-Fuh Lin, Ting-Wien Su, Peng-Fei Chung, Eih-Zhe Liang, Miin-Jang Chen, and C. W. Liu,
“Enhancing Electroluminescence from Metal-Oxide-Silicon Tunneling Diodes by Nano-structures of
Oxide Grown by Liquid-Phase Method,” Materials Chemistry and Physics, Volume: 77, Issue: 2,
January 15, pp. 430-433, 2003. (SCI) (NSC89-2215-E-002-059)
58. Ching-Fuh Lin, Bing-Ruey Wu, and Lih-Wen Laih, “Electron-Determined Nonuniform Carrier
Distribution among InGaAsP Multiple Quantum Wells,” Japanese Journal of Applied Physics 42,
pp.5557-5558, 2003. (NSC91-2215-E-002-025)
59. Ching-Fuh Lin, Yi-Shin Su, Di-Ku Yu, Chao-Hsin Wu, and Bing-Ruey Wu, “Improved temperature
-
共 28 頁第6頁characteristics of laser diodes with nonidentical multiple quantum wells due to
temperature-induced carrier redistribution”, Appl. Phys. Lett., 82 (20): pp.3403-3405, MAY 19 2003.
(NSC91-2215-E-002-025)
60. Ching-Fuh Lin, Eih-Zhe Liang, Sheng-Ming Shih, and Wei-Fang Su, “Significance of surface
properties of CdS nanoparticles,“ Jpn. J. Appl. Phys. Vol. 42, No. 6A, pp.L610 - L612, 2003.
(NSC89-2215-E-002-059)
61. Ching-Fuh Lin, Chi-Chia Huang, Fei-Hung Chu, and Yi-Shin Su, “Anti-competition of laser
modes,” Appl. Phys. Lett., 82 (21): pp.3611-3613, MAY 26, 2003. (NSC91-2215-E-002-025)
62. Ching-Fuh Lin, Chia-Wei Tsai, Yu-Chia Chang, Gagik Sh. Shmavonyan, and Yi-Shin Su,
“Extremely broadband superluminescent diodes/semiconductor optical amplifiers in optical
communication band,” SPIE, Proceedings, Vol. 4989, 2003.
63. Gagik Sh. Shmavonyan, Yi-Shin Su, and Ching-Fuh Lin, “Peculiarities of emission characteristics
from semiconductor optical amplifier with nonidentical multiple quantum wells,” SPIE, Proceedings,
Vol. 4986, 2003.
64. Ching-Fuh Lin, Ting-Wien Su, Eih-Zhe Liang, Hsing-Hung Hsieh, and Wu-Ping Huang, “Light
emitting diodes on Si,” SPIE, Proceedings, Vol.4996, 2003. (Invited)
65. Chao-Hsin Wu, Ching-Fuh Lin, Di-Ku Yu, and Bing-Ruey Wu, “Improved temperature
characteristics of semiconductor lasers due to carrier redistribution among nonidentical multiple
quantum wells,” SPIE, Proceedings, Vol. 4986, 2003.
66. Yi-Shin Su, Fei-Hung Chu, and Ching-Fuh Lin, “Broadband tuning in optical-communication
band using Fabry-Perot laser diodes without anti-reflection coating,” SPIE, Proceedings, Vol. 4995,
2003.
67. Ching-Fuh Lin, Yi-Shin Su, Fei-Hung Chu, and Chia-Wei Tsai, “Broadband semiconductor optical
amplifiers and tunable semiconductor lasers,” SPIE, Proceedings, Vol. 5248, pp.218-226, 2003
(invited).
68. Miin-Jang Chen, Jui-Fen Chang, Jia-Liang Yen, Chen S. Tsai, Eih-Zhe Liang, Ching-Fuh Lin, and
C. W. Liu, “Electroluminescence and photoluminescence studies on carrier radiative and
nonradiative recombinations in metal-oxide-silicon tunneling diodes, “ J. Appl. Phys. Vol 93, pp.
4253-4259, 2003.
69.Chi-Chia Huang, Chin-Hui Cheng, Yi-Shin Su, and Ching-Fuh Lin, “174nm mode spacing in
dual-wavelength semiconductor laser using nonidentical InGaAsP quantum wells, “IEEE Photonics
Technology Letters, 16, pp. 371-373, 2004.
70.Ching-Fuh Lin, Yi-Shin Su, Chao-Hsin Wu, and Gagik Sh. Shmavonyan, “Influence of separate
confinement heterostructure on emission bandwidth of InGaAsP superluminescent
diodes/semiconductor optical amplifiers with nonidentical multiple quantum wells,” IEEE Photonics
-
共 28 頁第7頁Technology Letters, 16, pp. 1441-1443, 2004.
71.Chi-Chia Huang, Fei-Hung Chu, Yi-Shin Su, and Ching-Fuh Lin, “Anti-competition of laser modes in
semiconductor lasers,” SPIE, Proceedings, Vol. 5349, 2004.
72. Chi-Chia Huang and Ching-Fuh Lin, “Dual-wavelength semiconductor laser with 191 nm mode
spacing,” SPIE, Proceedings, Vol. 5365, 2004.
73. Yi-Shin Su, Chih-Hung Tsai, Chia-Wei Tsai, and Ching-Fuh Lin, “Angled broad-area
semiconductor lasers to emit high output power with good beam quality,” SPIE, Proceedings, Vol.
5365, 2004.
74. Ching-Fuh Lin, Yi-Shin Su, Chao-Hsin Wu, and Yu-Chia Chang, “Influence of separate
confinement heterostructure on carrier distribution in InGaAsP laser diodes with nonidentical
multiple quantum wells,” Jpn. J. Appl. Phys. Vol. 43, No. 10, pp. 7032-7035, 2004.
75. Y.W. Huang, S.T. Hu, S.Y. Yang, and H.E. Horng, J.C. Hung, Chin-Yih Hong, H.C. Yang,
Cha-Hsin Chao, and Ching-Fuh Lin, “Tunable diffraction of magnetic fluid films and its potential
application in CWDM,” Opt. Lett. Vol. 29, No. 16, pp. 1867-1869, 2004.
76. Chih-Hung Tsai, Ching-Fuh Lin, Yi-Shin Su, Chia-Wei Tsai and D.P. Tsai, “High-power angled
broad-area 1.3μm laser diodes with good beam quality,” IEEE Photonics Technology Letters, Vol. 16,
No. 11, pp.2412-2414, 2004.
77. Chi-Chia Huang, Yi-Shin Su, and Ching-Fuh Lin, “Investigation of Laser-Mode Anti-competition in
Semiconductor Lasers,” IEEE Journal of Quantum Electronics, Volume 41,, pp.1-8, Jan. 2005.
78. Chi-Chia Huang, Yi-Shin Su, and Ching-Fuh Lin, “Simultaneous Generation of Eight Wavelengths
with about 20 nm Spacing from a Single Semiconductor Laser,” IEEE Photonics Technology Letters,
Vol. 17, pp. 675 – 677, March, 2005.
79. Kuo-Jui Sun, Yi-Shin Su and Ching-Fuh Lin, “Emitting 1530 nm light from mixture of Er2O3, P2O5
Nanoparticles and spin-on- glass on Silicon,” SPIE, Proceedings, Vol. 5723, 2005.
80. Yi-Shin Su, Chao-Hsin Wu and Ching-Fuh Lin, “Wavelength switching and light modulation in
laser diodes with nonidentical multiple quantum wells,” SPIE, Proceedings, Vol.5722, 2005.
81. Chih-Hung Tsai, Yi-Shin Su, and Ching-Fuh Lin, “Influence of geometrical factors on angled
broad-area semiconductor lasers for high output power with good beam quality,” SPIE, Proceedings,
Vol. 5738, 2005.
82. Chi-Chia Huang, Yi-Shin Su, and Ching-Fuh Lin, “Semiconductor Laser for All-optical Switching
between Medium-wave Band and Long-wave Band in Optical-Fiber Communication,” SPIE,
Proceedings, Vol. 5723, 2005.
83. Chih-Hung Tsai, Yi-Shin Su, and Ching-Fuh Lin, “Tunable and high-power semiconductor laser
with good beam quality in optical-communication band,” SPIE, Proceedings, Vol. 5723, 2005.
84. Ching-Fuh Lin, Cha-Hsin Chao, L. A. Wang and Wei. Chung. Cheng, “Black-body radiation
-
共 28 頁第8頁modified to enhance blue spectrum,” Journal of Optical Society of America B, Vol.
22, pp.1517-1520, 2005.
85. Yi-Shin Su, Chih-Hung Tsai and Ching-Fuh Lin, “Wavelength tunable injection locking of high
power super luminescent diode with 1.4 watt diffraction-limited output,” SPIE, Proceedings, Vol.
6104, pp. 610411-1-610411-8, 2006.
86. Yi-Shin Su, Yi Ho, Wei-Che Chang, Ching-Fuh Lin, “Investigation of phonon bottleneck effect on
quantum dot lasers,” SPIE, Proceedings, Vol. 6115, pp. 61151G-1-61151G-10, 2006.
87. Cha-Hsin Chao, Cen-Shawn Wu, Ching-Fuh Lin, “Nano-photonic boxes to modify black-body
radiation for visible light emission,” SPIE, Proceedings, Vol. 6128, pp. 61281N-1-61281N-9, 2006.
88. Ching-Fuh Lin, Ding-Ye Chiang, and Yi-Shin Su, “Anti-competition of laser modes in quantum
dot lasers,” SPIE, Proceedings, Vol. 6129, pp. 612901-1-612910-10, 2006.
89. MingChe Chan, Yi-Shin Su, Ching-Fuh Lin, and Chi-Kuang Sun, “2.2 m axial resolution optical
coherence tomography based on a 400 nm-bandwidth superluminesceint diode,” SCANNING 28 (1):
11-14 JAN-FEB 2006.
90. Eih-Zhe Liang, Chao-Jei Huang, and Ching-Fuh Lin, “Use of SiO2 nanoparticles as etch mask to
generate Si nanorods by reactive ion etch,” J. Vac. Sci. Technol. B, vol. 24, No. 2, pp.599-603,
Mar/Apr 2006.
91. Wei-Che Chang, Yi-Shin Su, Chao-Hsin Wu, and Ching-Fuh Lin, “Broad-Gain Measurement of
Semiconductor Optical Amplifier with Nonidentical Multiple Quantum wells,” Jpn. J. Appl. Phys.
Part2, Vol.45, No.09, pp.L259 - L261, Feb. 2006.
92. Ching-Fuh Lin, “Theoretical investigation of low-dimensional Bose-Einstein condensation,”
Chinese Journal of Physics, vol. 44, No. 2, pp. 79-87, April 2006.
93. Eih-Zhe Liang, Ting-Wei Su, and Ching-Fuh Lin, “Rigorous carrier dynamic model of
electroluminescent metal-oxide-semiconductor silicon tunneling diodes,” J. Appl. Phys., vol. 100, pp.
054509-1-054509-9, Sept. 2006.
94. Chih-Min Chuang, Ming-ChungWu, Yu-Ching Huang, Kuo-Chung Cheng, Ching-Fuh Lin,
Yang-Fang Chen and Wei-Fang Su, “Nanolithography made from water-based spin-coatable LSMO
resist,” Nanotechnology, vol. 17, pp. 4399-4404, Aug. 2006.
95. Chun-Yu Lee, Yau-Te Haung, Wei-Fang Su, and Ching-Fuh Lin, “Electroluminescence from ZnO
nanoparticles/organic nanocomposites,” Appl. Phys. Lett., Vol. 89, pp. 231116-1-231116-3, 2006.
96. C. S. Wu, C. F. Lin, Watson Kuo, and C. D. Chen, “Coupled single electron transistors as a
differential voltage amplifier,” New Journal of Physics, 8, pp. 1-9, 2006.
97. Yuen Yung Hui and Ching-Fuh Lin, “Synthesis and luminescence properties of europium doped
silica thin film,” Materials Letters, Volume 61, pp.3802-3804, 2007.
98. Yuen Yung Hui, Ping-Hung Shih, Kuo-Jui Sun, and Ching-Fuh Lin, “Enhancement of 1.5 µm
-
共 28 頁第9頁emission in erbium doped spin-on glass by furnace annealing,” Thin Solid Films, vol.
515, pp. 6754-6757, 2007.
99. Hsueh-Shih Fan, Yi-Shin Su, and Fei-Hung Chu, Fu-Yu Chang, Hao-Hsiung Lin and Ching-Fuh Lin,
“Opposite Temperature Effects of Quantum-Dot Laser under Dual-Wavelength Operation,” Appl.
Phys. Lett. Vol. 90, pp. 181113-1-181113-3, 2007.
100. Yi-Shin Su, Ding-I Chiang and Ching-Fuh Lin, “Anticompetition between Laser Modes in
Quantum Dot Laser,” IEEE Photonics Technology Letters, Vol. 19, pp. 889-991, 2007.
101. C. S. Wu, C. F. Lin, H. Y. Lin, C. L Lee and C. D. Chen, “Polymer-based photonic crystals
fabricated with single-step electron beam lithography,” Advanced Materials, vol. 19, pp. 3052-3054,
2007.
102. Chieh-Yu Kang, Cha-Hsin Chao, Shu-Chia Shiu, Li-Jen Chou, Mu-Tung Chang, Gong-Ru Lin, and
Ching-Fuh Lin, “Formation of self-organized platinum nanoparticles and their
micro-photoluminescence enhancement in visible light region, “J. Appl. Phys., Vol. 102, pp.
073508-1-073508-7, 2007.
103. Jing-Shun Huang and Ching-Fuh Lin, “Influences of ZnO sol-gel thin film characteristics on ZnO
nanowire arrays prepared at low temperature using all solution-based processing,” J. Appl. Phys.,
Vol. 103, pp. 014304-1-014304-5, 2008.
104. Eih-Zhe Liang, Shih-Che Hung, Ya-Ping Hsieh, and Ching-Fuh Lin, “Effective energy densities in
KrF excimer laser reformation as a sidewall smoothing technique,” J. Vac. Sci. Technol. B 26 (1),
pp. 110-116, Jan/Feb 2008.
105. Wen-Yan Su, Jing-Shun Huang, Ching-Fuh Lin, “Improving the property of ZnO nanorods using
hydrogen peroxide solution,” Journal of Crystal Growth, Vol. 310, Issue 11, pp. 2806-2809 , 15 May
2008.
106. Chun-Yu Lee, Yuen-Yung Hui, Wei-Fang Su, and Ching-Fuh Lin, “Electroluminescence from
monolayer ZnO nanoparticles using dry coating technique,” Appl. Phys. Lett., 92,
261107-1~261107-3, 2008. (Accepted by Virtual Journal of Nanoscale Science & Technology 2008,
July)
107. Yan-Ru Chen, Chieh-Hsiung Kuan, Yuen-Wuu Suen, Yu-Hwa Peng, Peng-Shiu Chen, Cha-Hsin
Chao, Eih-Zhe Liang, Ching-Fuh Lin, and Hung-Chun Lo, “High-density one-dimensional
well-aligned germanium quantum dots on a nanoridge array,” Appl. Phys. Lett., 92,
083101-1~083101-3, 2008.
108. Kao-Hua Tsai, Shu-Chia Shiu, and Ching-Fuh Lin,“Improving the conductivity of hole injection
layer by heating PEDOT:PSS,” SPIE, Proceedings, Vol.7052, pp. 70521B-1- 70521B-8, 25
September 2008.
109. Wen-Yan Su and Ching-Fuh Lin,“Study of the structural and luminescent properties of ZnO
http://www.sciencedirect.com/science?_ob=PublicationURL&_tockey=%23TOC%235302%232008%23996899988%23688828%23FLA%23&_cdi=5302&_pubType=J&_auth=y&_acct=C000051951&_version=1&_urlVersion=0&_userid=1196840&md5=8c7793f77411069539c4b04d3a99bc79�
-
共 28 頁第10頁nanorod arrays with hydrogen peroxide treatment,” SPIE, Proceedings, Vol.7039,
pp. 70391D-1-70391D-8, 9 September 2008.
110. Shu-Chia Shiu, Chieh-Yu Hsiao, Cha-Hsin Chao, Shih-Che Hung, and Ching-Fuh Lin, “Transfer of
aligned single crystal silicon nanowires to transparent substrates,” SPIE, Proceedings, Vol. 7047, pp.
70470F-1- 70470F-8, 11 September 2008.
111. Jing-Shun Huang, Chieh-Yu Hsiao, Shu-Jia Syu, Jiun-Jie Chao, and Ching-Fuh Lin, “Well-aligned
single-crystalline silicon nanowire hybrid solar cells on glass,” Solar Energy Materials and Solar
Cells, 93, pp. 621-624, 2009.
112. Shih-Che Hung, Eih-Zhe Liang, and Ching-Fuh Lin, “Silicon waveguide sidewall smoothing by
KrF excimer laser reformation,” Journal of Lightwave Technology, vol. 27, No. 7, pp. 887-892,
April 2009.
113. Cha-Hsin Chao, Jing-Shun Huang, and Ching-Fuh Lin, “Low-Temperature Growth of
Surface-Architecture-Controlled ZnO Nanorods on Si Substrates,” J. Phys. Chem. C, Vol. 113, pp.
512–517, 2009.
114. Shih-Che Hung, Shu-Chia Shiu, Cha-Hsin Chao, and Ching-Fuh Lin, “Fabrication of crystalline Si
spheres with atomic-scale surface smoothness using homogenized KrF excimer laser reformation
system,” J. Vac. Sci. Technol. B, Vol. 27, No. 3, pp. 1156-1160, May/Jun 2009.
115. Ya-Ping Hsieh, Hsin-Yi Chen, Ming-Zhang Lin, Shu-Chia Shiu, Mario Hofmann, Ming-Yau Chern,
Xiaoting Jia, Ying-Jay Yang, Hsiu-Ju Chang, Hsuan-Ming Huang, Shao-Chin Tseng, Li-Chyong
Chen, Kuei-Hsieh Chen, Ching-Fuh Lin, Chi-Te Liang, and Yang-Fang Chen, “Electroluminescence
from ZnO/Si-Nanotips Light-Emitting Diodes,” Nano Letters, Vol. 9, No. 5, pp. 1839-1843, 2009.
116. Chen-Yu Chou, Jing-Shun Huang, Chung-Hao Wu, Chun-Yu Lee, and Ching-Fuh Lin,
“Lengthening the polymer solidification time to improve the performance of polymer/ZnO nanorod
hybrid solar cells,” Solar Energy Materials and Solar Cells, Vol. 93, pp. 1608–1612, 2009.
117. Jing-Shun Huang, Chen-Yu Chou, Meng-Yueh Liu, Kao-Hua Tsai, Wen-Han Lin, and Ching-Fuh
Lin, "Solution-processed vanadium oxide as an anode interlayer for inverted polymer solar cells
hybridized with ZnO nanorods," Organic Electronics, 10, 1060-1065, 2009.
118. Shu-Jia Syu, Jiun-Jie Chao , Shih-Che Hung,Ching-Fuh Lin, "Massive transfer of vertically aligned
Si nanowire array onto alien substrates and their characteristics," Applied Surface Science, 255, pp.
8566–8570, 2009.
119. Kao-Hua Tsai, Jing-Shun Huang, Meng-Yueh Liu, Cha-Hsin Chao, Chun-Yu Lee, Shih-Che Hung,
and Ching-Fuh Lin, “High-efficiency flexible polymer solar cells based on PET substrates with a
non-annealing active layer,” Journal of The Electrochemical Society, 156 (10), B1188-B1191, 2009.
120. C H Chao, W H Lin, C H Chen, C H Changjean, and C F Lin, “Tunable light extraction efficiency
of GaN light emitting diodes by ZnO nanorod arrays,” Semiconductor Science and Technology, 24
-
共 28 頁第11頁105017, 2009.
121. C Y Lee, J Y Wang, Y Chou, C L Cheng, C h Chao, S C Shiu, S C Hung, J J Chao, M Y Liu, W F
Su, Y F Chen, Ching-Fuh Lin, “White-light electroluminescence from ZnO nanorods/ polyfluorene
by solution-based growth,” Nanotechnology, 20, 425202, 2009.
122. Ding-Shin Wang, Jiun-Jie Chao, and Shih-Che Hung, and Ching-Fuh Lin, Fabrication of
Large-Area Gallium Arsenide Nanowires Using Silicon Dioxide Nanoparticle Mask, “J. Vac. Sci.
Technol. B, Vol. 27, No. 6, pp.2449-2452, 2009.
123. Jen-Yi Wang; Chun-Yu Lee, Yung-Ting Chen, Chung-Tse Chen, Yung-Ling Chen, Ching-Fuh Lin,
Yang-Fang Chen, “Double side electroluminescence from p-NiO/n-ZnO nanowire heterojunctions,”
Applied Physics Letters;95(13):131117 - 131117-3, 2009.
124. Cha-Hsin Chao, W. H. Lin, C. H. Chen, C. H. Changjean and Ching-Fuh Lin,”Tunable light
extraction efficiency of GaN light emitting diodes by ZnO nanorod arrays,” Semicond. Sci. Technol.
24, 105017, 2009.
125. Jing-Shun Huang, Chen-Yu Chou, and Ching-Fuh Lin, “Efficient and air-stable polymer
photovoltaic devices with WO3-V2O5 mixed oxides as anodic modification,” IEEE Electron Device
Letters, Volume 31, Issue 4 , pp. 332-334, April 2010.
126. Jing-Shun Huang, Chen-Yu Chou, and Ching-Fuh Lin, "Enhancing performance of organic-
inorganic hybrid solar cells using a fullerene interlayer from all-solution processing," Solar
Energy Material and Solar Cells, 94, pp.182–186, 2010.
127. Chun-Yu Lee, Jen-Yi Wang, Yi Chou, Meng-Yueh Liu, Wei-Fang Su, Yang-Fang Chen, Ching-Fuh
Lin, “Enhanced ultraviolet electroluminescence from ZnO nanowires in TiO2/ZnO coaxial
nanowires/Poly(3,4-ethylenedioxythiophene)- poly(styrene-sulfonate) heterojunction, “ Journal of
Applied Physics, 107, 034310-1-034310-5, 2010.
128. Cha-Hsin Chao, Wen-Han Lin, Chang-Ho Chen, Ching-Hua Changjean, Chang-Chi Pan,
Ching-Fuh Lin, “Low-temperature heteroepitaxy of morphology-controlled ZnO mirco/nanorod
arrays on GaN substrates,” Chem. Lett. 39, 202-203 , 2010.
129. Ching-Fuh Lin, Kuo-Jui Sun, Ping-Hung Shih, and Yuen Yung Hui, “Using nanoparticles to
synthesize erbium doped light emitting thin film,” Thin Solid Film, 518, 5044–5046, 2010.
130. Ming-Chung Wu, Yi-Jen Wu, Wei-Che Yen, Hsi-Hsing Lo, Ching-Fuh Lin, and Wei-Fang Su,
“Correlation between Nanoscale Surface Potential and Power Conversion Efficiency of P3HT/TiO2
Nanorods Bulk Heterojunction Photovoltaic Devices,” Nanoscale, 2, 1448-1454, 2010.
131. Meng-Yueh Liu, Chin-Hsiang Chang, Chih-Hua Chang, Kao-Hua Tsai, Jing-Shun Huang,
Chen-Yu Chou, Chun-Yu Lee, Cha-Hsin Chao, Chin-Liang Yeh, and Ching-Fuh Lin,
“Morphological evolution of P3HT/PCBM and its influence on the performance of inverted polymer
solar cells with sol-gel derived zinc oxide as an electron selective layer,” Thin Solid Films, 518
http://ieeexplore.ieee.org/xpl/tocresult.jsp?isnumber=5437354�
-
共 28 頁第12頁4964–4969, 2010.
132. Ing-Jye Wang , Jing-Shun Huang, Yu-Hong Lin & Ching-Fuh Lin, “Improvement of Inverted-type
Organic Solar Cells by Mild Oxygen Plasma Etching on Polymer Thin Film,” Solar Energy
Materials & Solar Cells, 94, 1681-1685, 2010.
133. Jiun-Jie Chao, Shu-Chia Shiu, Shih-Che Hung, and Ching-Fuh Lin, “GaAs
nanowire/Poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) hybrid solar cells,”
Nanotechnology, 21, 285203, 2010.
134. Ming-Yi Lin, Chun-Yu Lee, Shu-Chia Shiu, Ing-Jye Wang, Jen-Yu Sun, Wen-Hau Wu, Yu-Hong
Lin, Jing-Shun Huang, and Ching-Fuh Lin, “Sol-gel processed CuOx thin film as an anode interlayer
for inverted polymer solar cells,” Organic Electronics, 11, 1828–1834, 2010.
135. Jiun-Jie Chao, Ding-ShinWang, Shu-Chia Shiu, Shih-Che Hung and Ching-Fuh Lin, “Controlled
formation of well-aligned GaAs nanowires with high aspect ratio on transparent substrates,”
Semiconductor Science and Technology, 25, 065014, 2010.
136. Chun-Yu Lee, Jing-Shun Huang, Sheng-Hao Hsu, Wei-Fang Su, and Ching-Fuh Lin,
“Characteristics of n-type ZnO nanorods on top of p-type poly(3-hexylthiophene) heterojunction by
solution-based growth,” Thin Solid Film, 518, 6066-6070, 2010.
137. Shu-Chia Shiu, Jiun-Jie Chao, Shih-Che Hung, Chin-Liang Yeh, and Ching-Fuh Lin, “Morphology
Dependence of Silicon Nanowire/Poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate)
Heterojunction Solar Cells, “ Chemistry of Materials, 22 , pp 3108–3113, 2010.
138. Shu-Chia Shiu, Shin-Bo Lin, Shih-Che Hung and Ching-Fuh Lin, “Influence of pre-surface
treatment on the morphology of silicon nanowires fabricated by metal-assisted etching,” Applied
Surface Science, 257, 1829–1834, 2010.
139. C Y Lee, M Y Lin, W H Wu, J Y Wang, Y Chou, W F Su, Y F Chen, and C F Lin, “Flexible ZnO
transparent thin film transistor by solution-based process at various solution concentrations,
“Semiconductor Science and Technology, 25, 105008 (pp.1-5), 2010.
140. S C Hung, S C Shiu, J J Chao, and Ching-Fuh Lin, "Fabrication of Deep Si Trenches by
Self-Assembled Wet Chemical Etching Process" Journal of the Electrochemical Society, 157 (9)
D496-D499, 2010.
141. Cha-Hsin Chao, Shih-Che Hung, Shu-Chia Shiu, Ming-Tung Kuo, Chang-Ho Chen, Ching-Hua
Changjean, and Ching-Fuh Lin, “Influence of architecture-controlled GaN rod arrays on the output
power of GaN LEDs,” IEEE Photon. Technol. Lett. VOL. 22, NO. 24, pp.1847-1849, 2010.
142. Shu-Chia Shiu, Shih-Che Hung, Hong-Jhang Syu, and Ching-Fuh Lin, “Fabrication of Silicon
Nano-structured Thin Film and Its Transfer from Bulk Wafers onto Alien Substrates,” Journal of
The Electrochemical Society, 158 (2), D95-D98, 2011.
143. Yu-Hong Lin, Po-Ching Yang, Jing-Shun Huang, Guo-Dong Huang, Ing-Jye Wang, Wen-Hao Wu,
-
共 28 頁第13頁Ming-Yi Lin, Wei-Fang Su, and Ching-Fuh Lin, “High-Efficiency Inverted Polymer
Solar Cells with Solution-Processed Metal Oxides,” Solar Energy Materials & Solar Cells, 95 pp.
2511-2515, 2011.
144. Hong-Jhang Syu, Shu-Chia Shiu, and Ching-Fuh Lin, "Silicon Naonwire/Organic Hybrid Solar
Cells with High Efficiency of 8.40%," Solar Energy Materials & Solar Cells,2011 (SCI) (accepted).
145. Shou-Yuan Ma, Yu-Min Shen, Po-Ching Yang, Chao-Shuo Chen, and Ching-Fuh
Lin ,"Morphological Modification Induced by External Electric Field during Solution Process of
Organic Solar Cells," Organic Electronics,2011 (SCI) (accepted).
146. Po-Ching Yang ,Jen-Yu Sun, Shou-Yuan Ma, Yu-Min Shen ,Yu-Hong Lin, Chih-Ping Chen, and
Ching-Fuh Lin ,"Interface Modification of a Highly Air-stable Polymer Solar Cell," Solar Energy
Material and Solar Cells, 2011 (SCI) (accepted).
147. Yu-Min Shen, Chao-Shuo Chen, Po-Ching Yang, Shou-Yuan Ma, and Ching-Fuh Lin ,"Improving
Surface Morphology of Thin Films and Performances by Applying Electric Field on P3HT:PCBM
Based Solar Cells," Solar Energy Materials & Solar Cells, 2011 (SCI) (accepted).
148. Chao-Shuo Chen, Po-Ching Yang, Yu-Min Shen, Shou-Yuan Ma, Shu-Chia Shiu, Shih-Che Hung,
and Ching-Fuh Lin, “The influence of wrinkled ZnO on inverted low bandgap thin film solar cells,”
Solar Energy Materials & Solar Cells, 2011 (SCI) (in revision).
B.研討會論文
1. Ching-Fuh Lin, “Selected multi-wavelength oscillation of a semiconductor laser in an external
cavity,” 1995 Semiconductor lasers: Advanced Devices and Applications, Keystone, Colorado,
OSA/IEEE/LEOS, Paper TuE8, 1995.
2. Ching-Fuh Lin, “Gain competition among multiple oscillation modes in semiconductor lasers,” 半導
體、光纖與積體光電研討會, Taipei, Taiwan, R.O.C., Paper S01-4, 1995.
3. Ching-Fuh Lin and Jie-Wei Lai, “Analysis of beam amplification in hyperbolically flared
semiconductor laseer amplifiers,” CLEO/Europe EQEC`96, Hamburg, Germany, Paper CThI29,
1996.
4. Bor-Lin Lee and Ching-Fuh Lin, “Dynamics of pulse formation in a coupled-cavity configuration
with an empty auxiliary cavity,” Ultrafast Optics and Optoelectronics Conference, HsinChu, Taiwan,
Paper S-1-3, 1996.
5. Fuh-Hsiang Yang, Jin-Shung Liu, Ching-Fuh Lin, and Hao-Hsiung Lin, “Characteristics of
InGaAsP/GaAs Quantum-well lasers grown by gas source molecular beam epitaxy,” IEDMS,
Hsinchu, Taiwan, Paper B5-8, 1996.
6. Miin-Jang Chen and Ching-Fuh Lin, “Asymmmetric pulse shape and nonlinear passively
-
共 28 頁第14頁mode-loakced semiconductor lasers,” Photonics/Taiwan ‘96, Hsinchu, Taiwan,
R.O.C., Paper FRC-C-1, 1996.
7. Ching-Fuh Lin, Pei-Cheng Ku, Bor-Lin Lee, and Yu-Li Hsueh, “Very efficient optical switching in
two-mode semiconductor lasers via gain or loss modulation,” Photonics/Taiwan ‘96, Hsinchu,
Taiwan, R.O.C., Paper FRC-B-1, 1996.
8. Ching-Fuh Lin and Pei-Cheng Ku, “Optical tristability in a two-mode laser,” Photonics/Taiwan ‘96,
Hsin-Chu, Taiwan, R.O.C., Paper FRC-B-3, 1996.
9. Ching-Fuh Lin, Bor-Lin Lee, Po-Chien Lin, Chaur-Shiuann Juang, Fuh-Hsiang Yang, and Jui-Ming
Kuo, “Broadband semiconductor laser amplifiers around 830 nm,” Photonics/Taiwan’96, Hsin-Chu,
Taiwan, R.O.C., Paper FRB-C-6, 1996.
10. Ching-Fuh Lin, Hsu-Feng Chou, and Fuh-Hsiang Yang, “A study of bending waveguide for
semiconductor photonics,” PIERS 1997, Hong-Kong, Paper 7A8-5, 1997.
11.Bor-Lin Lee and Ching-Fuh Lin, “Bi-directional optical switching between straight direction and
bending direction in shallow-etched ridge-waveguide semiconductor laser/amplifier,” 1997 EDMS,
Chung-Li, Taiwan, ROC, Paper TB1.7, 1997.
12.Bor-Lin Lee and Ching-Fuh Lin, “Bi-directional optical switching between straight direciton and
bending direction in semiconductor laser/amplifier, “CLEO/Pacific Rim’97, China, Japan, Paper
P090, 1997.
13.Bor-Lin Lee and Ching-Fuh Lin, “Superluminescent diodes with over 900 A bandwidth fabricated on
AlGaAs/GaAs quantum-well substrate,” CLEO/QELS’97, Baltimore, USA, Paper CThA4, 1997.
14. Bor-Lin Lee and Ching-Fuh Lin, “Wide-range tunable semiconductor lasers using asymmetric dual
quantum wells,” OPT’97, HsinChu, Taiwan, Paper THU-III-A-2, 1997. (NSC86-2215-E-002-004)
15. Jie-Wei Lai and Ching-Fuh Lin, “Carrier Diffusion Effect in Flared Semiconductor-Laser
Amplifier,” OPT’97, HsinChu, Taiwan, Paper FRI-I-C-3, 1997. (NSC86-2215-E-002-004)
16. Hsu-Feng Chou and Ching-Fuh Lin, “An iterative finite difference beam propagation method to
model quasi-phase-matched second-order nonlinear effects in optical waveguides,” OPT’97,
HsinChu, Taiwan, Paper THU-II-B-4, 1997. (NSC86-2215-E-002-004)
17. Hsiang Chen, Bor-Lin Lee, and Ching-Fuh Lin, “Extremely smooth micromachined silicon optical
reflector for surface-emitting semiconductor lasers,” OPT’97, HsinChu, Taiwan, Paper
FRI-III-D-2, 1997. (NSC85-2512-S-002-007)
18. Juay-Ming Guo, Miin-Jang Chen, and Ching-Fuh Lin, “Using a usual evaporator to achieve
low-reflection coating for semiconductor lasers,” OPT’97, HsinChu, Taiwan, Paper FRI-III-D-1,
1997. (NSC85-2512-S-002-007)
19. Bor-Lin Lee and Ching-Fuh Lin, “Ultra-broadband semiconductor laser amplifiers,” OPT’97,
HsinChu, Taiwan, Paper FRI-I-C-1, 1997. (NSC86-2215-E-002-004)
-
共 28 頁第15頁20. Jie-Wei Lai and Ching-Fuh Lin, “Near-field improvement in new-type flared
semiconductor-laser amplifiers,” OPT’97, HsinChu, Taiwan, Paper FRI-I-C-2,
1997.(NSC86-2215-E-002-004)
21. Miin-Jang Chen, Bor-Lin Lee, and Ching-Fuh Lin, “Theoretical study of the passively mode-locked
semiconductor lasers in a unidirectional ring cavity,” OPT’97, HsinChu, Taiwan, Paper
FRI-III-C-4, 1997. (NSC86-2112-M-002-018)
22. Bor-Lin Lee and Ching-Fuh Lin, “Experimental observation of nonuniform carrier distribution in
double quantum wells,” OPT’97, HsinChu, Taiwan, Paper FRI-I-C-4,
1997.(NSC86-2215-E-002-004)
23. Hsu-Feng Chou, Yue-Wen Hong, and Ching-Fuh Lin, “The influence of nonideal implementation
and noise on quasi-phase-matched parametric interaction in optical waveguides,” International
Photonics Conference (IPC’98), Taipei, Taiwan, ROC, Paper T-T3-A5, 1998.
(NSC87-2215-E-002-012)
24. Miin-Jang Chen, Ching-Fuh Lin, and Bor-Lin Lee, “Using asymmetric dual quantum wells to
achieve dual-wavelength semiconductor laser with an extremely broadband tuning range,”
International Photonics Conference (IPC’98), Taipei, Taiwan, ROC, Paper W-T1-C5, 1998.
(NSC87-2215-E-002-012)
25. Hsu-Feng Chou, Shing-Mou, and Ching-Fuh Lin, “Comparisons of various finite difference beam
propagation methods for modeling second-order nonlinearities,” International Photonics
Conference (IPC’98), Taipei, Taiwan, ROC, Paper T-PO21, 1998. (NSC87-2215-E-002-012)
26. Ching-Fuh Lin, Yu-Chia Chang, Shu-Wei Chang, and Keng-Chao Chen, and Jie-Wei Lai, “The
influence of waveguide structure and spontaneous emission on flared semicodnuctor-laser
amlifiers,” International Photonics Conference (IPC’98), Taipei, Taiwan, ROC, Paper T-PO6, 1998.
(NSC87-2215-E-002-012)
27. Bor-Lin Lee, Ching-Fuh Lin, and Miin-Jang Chen, “Wide-range tunable semiconductor lasers using
multiple quantum wells of different widths,” 1998 International Conference on Applications of
Photonics Technology (ICAPT’98) Ottawa, Ontario, Canada, 1998. (NSC87-2215-E-002-012)
28. Hsu-Feng Chou, Gin-Chung Wang, and Ching-Fuh Lin, “A study of quasi-phase-matched
second-order nonlinear effects in optical waveguides using an iterative finite-difference beam
propagation method,” CLEO/Europe-EQEC’98, Glasgow, Scotland, UK, Paper CThH39, 1998.
(NSC87-2215-E-002-012)
29. Ching-Fuh Lin, Jie-Wei Lai, and Yu-Chia Chang, “Output beam quality improvement using a
narrow input for tapered semiconductor-laser amplifiers,” CLEO/Europe-EQEC’98, Glasgow,
Scotland, UK, Paper CTuI38, 1998.(NSC87-2215-E-002-012)
-
共 28 頁第16頁30. Ching-Fuh Lin and Bor-Lin Lee, “A study of semiconductor lasers/amplifiers with
multiple quantum wells of different widths,” CLEO/Europe-EQEC’98, Glasgow, Scotland, UK,
Paper CTuI51, 1998. (NSC87-2215-E-002-012)
31. Ching-Fuh Lin, Jie-Wei Lai, and Yu-Chia Chang, “Improve output beam quality using new-type
flared semiconductor-laser amplifiers,” CLEO/QELS '98, San Francisco, USA, Paper CTuM6,
1998.(NSC87-2215-E-002-012)
32. Bor-Lin Lee and Ching-Fuh Lin, “Nonuniform carrier distribution in multiple quantum wells,”
CLEO/QELS '98, San Francisco, USA, Paper CWF17, 1998. (NSC87-2215-E-002-012)
33. Bor-Lin Lee and Ching-Fuh Lin, “Nonuniform carrier distribution in double quantum wells,”
Photonics Taiwan’98, Optoelectronic Materials and Devices, Taipei, Taiwan, July, 1998.
(NSC87-2215-E-002-012)
34. Ching-Fuh Lin, Jie-Wei Lai, and Yu-Chia Chang, “Improve output beam quality using
hyperbolically flared semiconductor-laser amplifiers,” Photonics Taiwan’98, Optoelectronic
Materials and Devices, Taipei, Taiwan, July, 1998. (NSC87-2215-E-002-012)
35. C. W. Liu, M. H. Lee, C. F. Lin, I. C. Lin, W. T. Liu, and H. H. Lin, “Light emission and detection
by metal oxide silicon tunneling diodes,” 1999 IEEE International Electron Devices Meeting,
Paper 31.3, Washington, D. C., December, 1999. (NSC88-2112-M-002-038), (NSC
88-2215-E-002-021)
36. Bing-Ruay Wu, Miin-Jang Chen, and Ching-Fug Lin, “Photoluminescence experiment and
nonuniform carrier distribution inside asymmetric multiple quantum wells,” OPT’99 (Optics and
Photonics/Taiwan’99), Paper FR-IV6-A-3, Chung-Li, Taiwan, December 1999.
(NSC88-2112-M-002-038)
37. Bor-Lin Lee and Ching-Fuh Lin, “Novel self-hybrid mode-locking of semiconductor lasers,”
OPT’99 (Optics and Photonics/Taiwan’99), Paper FR-III5-C-3, Chung-Li, Taiwan, December 1999.
(NSC88-2112-M-002-038)
38. Miin-Jang Chen, Ching-Fuh Lin, Yu-Fu Con, and Juen-Kai Wang, “An efficient approach to extract
the pulse shape and spectral phase from intensity autocorrelation and power spectrum,” OPT’99
(Optics and Photonics/Taiwan’99), Paper PC-03, Chung-Li, Taiwan, December 1999.
(NSC88-2112-M-002-038)
39. Shin Mou and Ching-Fuh Lin, “Quasi-3D beam propagation method for difference frequency
generation in bulk periodic poled lithium niobate,” OPT’99 (Optics and Photonics/Taiwan’99),
Paper FR-II3-B-3, Chung-Li, Taiwan, December 1999. (NSC 88-2215-E-002-021)
40. Shu-Wei Chang and Ching-Fuh Lin, “The influence of spontaneous emission on the output profile of
the flared semiconductor laser amplifiers,” OPT’99 (Optics and Photonics/Taiwan’99), Paper
FR-I4-A-6, Chung-Li, Taiwan, December 1999. (NSC 88-2215-E-002-021)
-
共 28 頁第17頁41. Gary Chen, Miin-Jang Chen, and Ching-Fuh Lin, “Optical bistability in
multiple-quantum-well semiconductor lasers,” OPT’99 (Optics and Photonics/Taiwan’99), Paper
FR-III6-C-5, Chung-Li, Taiwan, December 1999. (NSC88-2112-M-002-038)
42. Ching-Fuh Lin, Bor-Lin Lee, and Miin-Jang Chen, “Semiconductor lasers with extremely broad
tuning range by using asymmetric dual quantum wells,” 3rd Belarussian-Russian Workshop
“Semiconductor Lasers and Systems”, Minsk, Belarussian, June, 1999. (NSC88-2112-M-002-038)
43. Ching-Fuh Lin, Bor-Lin Lee, and Miin-Jang Chen, “Semiconductor lasers with broadband
tunability,” Advanced Semiconductor Lasers and Their Applications’99, Paper AWC2, Santa
Barbara, USA, July, 1999. (NSC 88-2215-E-002-021)
44. Ching-Fuh Lin, Hsu-Feng Chou, and Shing Mou, “Finite Difference Beam Propagation Methods for
Modeling Quasi-Phase-Matched Second-Order Nonlinear Interaction in Waveguide,” NLGW’99,
Nonlinear Guided Waves and Their Applications, Paper ThD32, Dijon, France, September, 1999.
(NSC 88-2215-E-002-021)
45. Ching-Fuh Lin, Hsu-Feng Chou, and Yue-Wen Hong, “The Study of Nonideal Implementation and
Noise Effects on Quasi-Phase-Matched Parametric Interactions in Optical Waveguides,”
NLGW’99, Nonlinear Guided Waves and Their Applications, Paper ThD31, Dijon, France,
September, 1999. (NSC 88-2215-E-002-021)
46. Gary Chen, Ching-Fuh Lin, Miin-Jang Chen, and Bor-Lin Lee, “Novel Optical Bistability and
Hysteresis in Multiple-Quantum-Well Lasers, “ CLEO/Europe’2000, Paper QThD0005, Nice,
France, September, 2000. (NSC88-2112-M-002-038)
47. Miin-Jang Chen, Ching-Fuh Lin, Jiann Jong Chiu, Cheewee Liu and Shu-Wei Chang,
“Metal-Oxide-Semiconductor Light-Emitting Diodes at Si Bandgap Energy,” CLEO/Europe’2000,
Paper CWF0023, Nice, France, September, 2000. (NSC 88-2215-E-002-021)
48. Ching-Fuh Lin, Shin-Mou, and Hsu-Feng Chou, “Quasi-3D beam-propagation method for
simulating quasi-phase-matched second-order nonlinear interaction,” Nonlinear Optics: Materials,
Fundamentals and Applications, Paper TuB25, Hawaii, USA, August, 2000. (NSC
88-2215-E-002-021)
49. Ching-Fuh Lin, Bing-Ruey Wu, Lih-Wen Laih, and Tien-Tsorng Shih, “Semiconductor-laser
amplifiers with bandwidth over 300 nm,” Optical Amplifier and Their Applications 2000, Paper
OMD15, Quebec, Canada, July, 2000. (NSC88-2112-M-002-038)
50. Ching-Fuh Lin, C.W. Liu, Miin-Jang Chen, M. H. Lee, I. C. Lin, and Shu-Wei Chang,
“Nano-thickness of oxide for electroluminescence at Si band gap energy from MOS structures,” 第
二屆奈米材料展望研討會, 中研院物理所, Taipei, June, 2000. (NSC 88-2215-E-002-021)
-
共 28 頁第18頁51. Ching-Fuh Lin, C. W. Liu, Miin-Jang Chen, M. H. Lee, and I. C. Lin, “Tunneling
Induced Electroluminescence from Metal-Oxide-Semiconductor Structure on Silicon”, Symposium
on Integrated Optoelectronics, Photonics West’2000, San Jose, California, USA, January, 2000.
(NSC 88-2215-E-002-021)
52. Ching-Fuh Lin, Miin-Jang Chen, Eih-Zhe Liang, W. T. Liu, S. T. Chang, and C. W. Liu, “ Novel
Electroluminescence from Metal-Insulator-Oxide Structures on Si”,Commad 2000, Conference on
Optoelectronics and Microelestronic Materials and Devices, Melbourne, Australia, 2000. (NSC
88-2215-E-002-021)
53. Ching-Fuh Lin, Bin-Ruay Wu, Lih-Wen Laih, and Tien-Tsorng Shih, “InGaAsP/InP Laser
diodes/superluminescent diodes with nonidentical quantum wells” Commad 2000, Conference on
Optoelectronics and Microelestronic Materials and Devices, Melbourne, Australia, 2000.
(NSC88-2112-M-002-038)
54. Miin Jang Chen, Ching-Fuh Lin, W. T. Liu, S. T. Chang, and C. W. Liu, “Characteristics of visible and band-edge electroluminescence from ITO/SiO2/Si MOS tunneling diodes,” IPC2000, Hsin-Chu, Taiwan, Paper Th-T1-P001, Dec. 2000. (NSC 88-2215-E-002-021)
55. Ching-Fuh Lin and Bor-Lin Lee, “Active mode-locking of semiconductor lasers with broadband tunability,” IPC2000, Hsin-Chu, Taiwan, Paper Th-T3-P006, Dec. 2000. (NSC88-2112-M-002-038)
56. Ching-Fuh Lin, Chien-Chia Cheng, and Bor-Lin Lee, “Generation of extremely short pulses from semiconductor lasers by sub-harmonic modulation,” IPC2000, Hsin-Chu, Taiwan, Paper Th-S2-E002, Dec. 2000. (NSC88-2112-M-002-038)
57. Bing-Ruey Wu, Ching-Fuh Lin, Lih-Wen Laih and Tien-Tsorng Shih, “Nonidentical multiple quantum well semiconductor lasers with electron as the dominant carrier,” IPC2000, Hsin-Chu, Taiwan, PaperTh-T1-B003, Dec. 2000. (NSC88-2112-M-002-038)
58. Miin Jang Chen, Ching-Fuh Lin, M. H. Lee, and C. W. Liu, “Electroluminescence at silicon band edge from metal-oxide-semiconductor tunneling diodes,” IPC2000, Hsin-Chu, Taiwan, Paper F-T1-C001, Dec. 2000. (NSC 88-2215-E-002-021)
59. Bing-Ruey Wu, Ching-Fuh Lin, Lih-Wen Laih and Tien-Tsorng Shih, “Superluminescent Diodes
with Bandwidth Covering from 1.3m to 1.55m,” IPC2000, Hsin-Chu, Taiwan, Paper F-T1-C005,
Dec. 2000. (NSC 88-2215-E-002-021)
60. Ching-Fuh Lin, Bin-Ruay Wu, Lih-Wen Laih, and Tien-Tsorng Shih, “Extremely broadband
superluminescent diodes/semiconductor laser amplifiers using nonidentical InGaAsP quantum
wells”, Photonics West 2001, paper 4292-23, San Jose, USA, 2001. (NSC89-2215-E-002-059)
61. Ching-Fuh Lin, Miin-Jang Chen, Ming-Hung Lee, and Cheewee Liu, “Efficient
-
共 28 頁第19頁Electroluminescence at Si Bandgap Energy from Metal-Oxide-Semiconductor
Tunneling Diodes,” Photonics West 2001, paper 4283-83, San Jose, USA, 2001.
(NSC89-2215-E-002-059)
62. Ching-Fuh Lin, Bin-Ruay Wu, Lih-Wen Laih, and Tien-Tsorng Shih, “Characteristics of laser
diodes influenced by electron-dominant nonuniform carrier distribution, “Photonics West 2001, San
Jose, USA, 2001. (NSC89-2112-M-002-076) 63. Ching-Fuh Lin, Yi-Shin Su, and Bing-Ruey Wu, “Extremely Broadband Tunable Semiconductor
Lasers for Optical Communication, “ CLEO2001, Paper CTuV, Baltimore, USA, 2001.
(NSC89-2215-E-002-059)
64. Eih-Zhe Liang , Ching-Fuh Lin and Wei-Fang Su, “Electroluminescence and Spectral Shift of CdS
Nanoparticles on Si Wafer”, IEEE-NANO'2001, Maui, Hawaii, USA, October, 2001.
(NSC89-2215-E-002-059)
65. Ching-Fuh Lin, Peng-Fei Chung, Miin-Jang Chen, and Wei-Fang Su, “SiO2-Nanoparticles
Enhancing Si Band-Edge Electroluminescence to Nearly Lasing Actions, “IEEE-NANO'2001, Maui,
Hawaii, USA, October, 2001. (NSC89-2215-E-002-059)
66. C. W. Liu, Y.-H. Liu, M. H. Lee, Miin-Jang Chen, and Ching-Fuh Lin, “Metal-oxide-silicon light
emitting diodes prepared by rapid thermal oxidation,” accepted by Spring meeting Electrochemical
Society, San Francisco, to be published in Advances in Rapid Thermal Processing, ECS proceedings,
2001. (NSC89-2215-E-002-059)
67. Bor-Lin Lee, Chien-Chia Cheng, and Ching-Fuh Lin, “Generation of Extremely Short Pulses from
Self-Hybrid Mode-Locking of Semiconductor Lasers,” 14th Annual Lasers and Electro Optics
Society Meeting (LEOS2001), Paper ThH 5, San Diego, California, November, 2001.
(NSC89-2112-M-002-076) 68. Yi-Shin Su, Ching-Fuh Lin, Bing-Ruey Wu, Lih-Wen Laih and Wen-Jang Ho, “Broadband
Tunability of External-Cavity Semiconductor Lasers for Optical Communication,” 14th Annual
Lasers and Electro Optics Society Meeting (LEOS2001), Paper WS 4, San Diego, California,
November, 2001. (NSC89-2112-M-002-076) 69. Ching-Fuh Lin, Peng-Fei Chung, Miin-Jang Chen and Wei-Fang Su, “Nearly Lasing Actions from
Nanoparticle-Modified Metal-Oxide-Semiconductor Structure on Si,” 14th Annual Lasers and
Electro Optics Society Meeting (LEOS2001), Paper ThT 3, San Diego, California, November, 2001.
(NSC89-2215-E-002-059)
70. Eih-Zhe Liang, Ching-Fuh Lin, Sheng-Ming Shih, and Wei-Fang Su, “Electroluminescence of CdS
nanoparticles on Si,” 2001 Fall MRS meeting, Boston, Massachusetts, 2001.
(NSC89-2215-E-002-059)
71. Eih-Zhe Liang, Ching-Fuh Lin, Sheng-Ming Shih, and Wei-Fang Su, ‘Electroluminescence and
-
共 28 頁第20頁temperature effect of CdS nanoparticles on Si wafer,” Optics and Photonics
Taiwan’01, KaoShiuang, Taiwan, Paper TA4-2, 2001. (NSC89-2215-E-002-059)
72. Miin-Jang Chen, Eih-Zhe Liang, Ching-Fuh Lin, Ming-Hung Lee, Cheewee Liu and S. T. Chang,
“Radiative and nonradiative recombinations in light-emitting metal-oxide-silicon tunneling diodes,”
Optics and Photonics Taiwan’01, KaoShiuang, Taiwan, Paper TA4-5, 2001.
(NSC89-2215-E-002-059)
73. Hsin-Hong Hsieh, Ching-Fuh Lin, and Wei-Fang Su, “Using nanoaprticles in the oxide layer of
metal-oxide-silicon structure to generate efficient electroluminescence on Si,” Optics and Photonics
Taiwan’01, KaoShiuang, Taiwan, Paper TA4-6, 2001. (NSC89-2215-E-002-059)
74. Ching-Fuh Lin, Yi-Shin Su, and Bing-Ruey Wu, “Semiconductor laser/amplifier with nonidentical
multiple-quantum-well structures,” Optics and Photonics Taiwan’01, KaoShiuang, Taiwan, Paper
TC1-6, 2001. (NSC89-2112-M-002-076) 75. Tiku Yu, Ching-Fuh Lin, Yi-Shin Su, and Bing-Ruey Wu, “Multiple cross switching effects in a
bi-directional mode semiconductor laser,” Optics and Photonics Taiwan’01, KaoShiuang, Taiwan,
Paper TD2-4, 2001. (NSC89-2112-M-002-076) 76. Chin-Hui Chen, Ching-Fuh Lin, Yi-Shin Su, Chi-Chia Huang, and Bing-Ruey Wu, “Broadly tunable
dual-wavelength semiconductor lasers inoptical-communication band,” Optics and Photonics
Taiwan’01, KaoShiuang, Taiwan, Paper TD2-6, 2001. (NSC89-2215-E-002-059)
77. Miin-Jang Chen, Shu-Wei Chang, Eih-Zhe Liang, and Ching-Fuh Lin, “Electroluminescence from
silicon: using mechanically pressed indium-tin-oxide/silicon contact,” Optics and Photonics
Taiwan’01, KaoShiuang, Taiwan, Paper P12, 2001. (NSC89-2215-E-002-059)
78. Ting-Wien Su, Peng-Fei Chung, Miin-Jang Chen, and Ching-Fuh Lin, “Room temperature
electroluminescence from metal-oxide-silicon tunneling diodes with oxide grown by
liquid-phase-deposition,” Optics and Photonics Taiwan’01, KaoShiuang, Taiwan, Paper P13, 2001.
(NSC89-2215-E-002-059)
79. Yi-Shin Su, Ching-Fuh Lin, Di-Ku Yu, and Bin-Ruay Wu, “Semiconductor Lasers Tunable from 1.3
m to 1.54 m for Optical Communication, “ Photonics West 2002, Paper 4653-16, San Jose, USA,
2002. (NSC89-2215-E-002-059)
80. Peng-Fei Chung, Ting-Wien Su, Ching-Fuh Lin, Miin-Jang Chen, and Wei-Fang Su,
“Nano-structured Metal-Oxide-Semiconductor Devices for Efficient Band-edge
Electroluminescence,” Photonics West 2002, Paper 4654-17, San Jose, USA, 2002.
(NSC90-2622-L-002-002)
81. Ching-Fuh Lin, Yi-Shin Su, Di-Ku Yu, and Bin-Ruay Wu, “Reducing Temperature Dependence of
Semiconductor Lasers Using Nonidentical Multiple Quantum Wells,” Photonics West 2002, Paper
4651-18, San Jose, USA, 2002. (NSC89-2112-M-002-076)
-
共 28 頁第21頁82. Eih-Zhe Liang, Ching-Fuh Lin, and Wei-Fang Su, “CdS Nanoparticles
Light-emitting Diode on Si”, Photonics West 2002, Paper 4641-20, San Jose, USA, 2002. (NSC90-2622-L-002-002)
83. Chin-Hui Chen, Ching-Fuh Lin, Yi-Shin Su, Chi-Chia Huang, and Bing-Ruey Wu, “Broadly tunable dual-wavelength semiconductor laser in optical-communication band,” CLEO2002, Paper CWK, Long Beach CA, USA, 2002. (NSC89-2215-E-002-059)
84. Ching-Fuh Lin, Di-Ku Yu, Yi-Shin Su, and Bing-Ruey Wu, ”Temperature-Induced Carrier Redistribution among Nonidentical Multiple Quantum Wells,” CLEO2002, Paper CThO, Long Beach CA, USA, 2002. (NSC89-2112-M-002-076)
85. Ching-Fuh Lin, Eih-Zhe Liang, and Ting-Wien Su, Hsing-Hung Hsieh, Wei-Fang Su, Miin-Jang Chen, “Light Sources for Photonic Circuitry Based on Si,” CLEO2002, Paper JThB, Long Beach CA, USA, 2002. (NSC90-2622-L-002-002)
86. Yi-Shin Su, Chin-Hui Chen, Chi-Chia Huang, and Ching-Fuh Lin, “Extremely Broadband Tunable
Semiconductor Lasers in an External Cavity, “ OC2002 (Optical Computing), Taipei, Taiwan, 2002.
(NSC89-2215-E-002-059)
87. Eih-Zhe Liang, Ching-Fuh Lin, Sheng-Ming Shih and Wei-Fang Su, “The significant influence of
surface states on the electroluminescence of CdS nanoparticles,” International Symposium on
Optical Science and Technology (SPIE's Annual Meeting), Seattle, Washington, USA, 11 July 2002.
88. Miin-Jang Chen, J. F. Chang, C. S. Tsai, Eih-Zhe Liang, Ching-Fuh Lin, and C. W. Liu,
“Photoluminescence and electroluminescence studies on ITO/SiO2/Si tunneling diodes for efficient
emission from silicon, “International Symposium on Optical Science and Technology (SPIE's
Annual Meeting), Seattle, Washington, USA, 11 July 2002.
89. 林唯芳, 韋文誠, 張哲政, 何榮銘, 林清富, “奈米光粒子合成, 能隙晶體結構製作與應用”
2002 奈米科技學術研討會, 台灣大學, 台北, 2002。
90. C. F. Lin, S. M. Shih, W. F. Su, H. K. Yuan, C. Y. Liu, J. H. Tsai, E. Z. Liang, “Investigation on the
electrical and optical properties of Gold/SiO2 nanoparticles mixture, “2002 奈米科技學術研討會,
台灣大學, 台北, 2002。
91. E. Z. Liang, C. F. Lin, S. M. Shih, W. F. Su, “CdS-nanoparticle light-emitting-diode on Si,” 2002 奈
米科技學術研討會, 台灣大學, 台北, 2002。
92. Ching-Fuh Lin, Yi-Shin Su , Chin-Hui Chen, “Extremely broadband tunable semiconductor lasers
for optical communication,” ECOC2002, Paper P2.30 Copenhagen, Denmark, 2002.
93. Ching-Fuh Lin, Wu-Ping Huang, Eih-Zhe Liang, Ting-Wien Su, and Hsing-Hung Hsieh, “Using
SiO2 nanoparticles to efficiently enhance light emission from metal-oxide-silicon tunneling diodes
on Si,” COMMAD2002, Sydney, Australia, 11-13 December, 2002.
94. Ching-Fuh Lin, Chia-Wei Tsai, Yu-Chia Chang, Chin-Hui Chen, Gagik Sh. Shmavonyan, and
Yi-Shin Su, “Semiconductor lasers/optical amplifiers in optical communication band with very
-
共 28 頁第22頁broadband property,” COMMAD2002, Sydney, Australia, 11-13 December, 2002.
95. Eih-Zhe Liang (梁奕智), Ting-Wien Su (蘇亭偉), and Ching-Fuh Lin (林清富), “Frequency
response investigation of carrier lifetime in electroluminescent MOS tunneling diode,” OPT2002,
Paper FC4-1, Taipei, Taiwan.
96. Yi-Shin Su (蘇益信)a, Fei-Hung Chu (褚飛宏), and Ching-Fuh Lin (林清富), “Carrier competition in broadband semiconductor amplifier,” OPT2002, Paper FD1-2, Taipei, Taiwan.
97. Fei-Hung Chu( 褚 飛 宏 ), Yi-Shin Su ( 蘇 益 信 ), and Ching-Fuh Lin( 林 清 富 ), “Broadly tunable external-cavity semiconductor lasers using Fabry-Perot laser diodes without AR-coating,” OPT2002, Paper TG1-1, Taipei, Taiwan.
98. Hsing-Hung Hsieh(謝信弘 ) and Ching-Fuh Lin(林清富 ), “Effect of particle size on the electroluminescence of metal-SiO2 nanoparticle-silicon structure,” OPT2002, Paper FF2-2, Taipei, Taiwan.
99. Hsing-Hung Hsieh(謝信弘), Eih-Zhe Liang(梁奕智), and Ching-Fuh Lin(林清富), “Substrate Dependency of Light Emission from Metal Oxide Silicon Tunneling Diodes,” OPT2002, Paper TF1-4, Taipei, Taiwan.
100. Wu-Ping Huang(黃武平) and Ching-Fuh Lin(林清富), “Enhancing light-emission efficiency from Si-MOS tunneling diodes by KOH wet etching,” OPT2002, Paper TF1-6, Taipei, Taiwan.
101. Chia-Wei Tsai(蔡家偉), Gagik Sh. Shmavonyan, and Ching-Fuh Lin(林清富), “Extremely broadband InGaAsP/InP superluminescent diodes,” OPT2002, Paper FD3-5, Taipei, Taiwan.
102. Di-Ku Yu (余帝穀), Chao-Hsin Wu(吳肇欣), Ching-Fuh Lin(林清富), and Bing-Ruey Wu(吳秉睿), “Novel behaviors of laser diodes due to temperature-induced carrier redistribution among nonidentical multiple quantum wells,” OPT2002, Paper FD2-1, Taipei, Taiwan.
103. Chi-Chia Huang (黃啟嘉) , Yi-Shin Su (蘇益信) , Chin-Hui Cheng (陳錦慧), and Ching-Fuh Lin ( 林清富 ), “Novel anti-competition in super-broadband semiconductor optical amplifiers,” OPT2002, Paper FF2-1, Taipei, Taiwan.
104. Di-Ku Yu (余帝穀) and Ching-Fuh Lin (林清富), “Bi-directional guiding effect of lasing mode in the shallow-etched bending ridge waveguide,” OPT2002, Paper FD2-3, Taipei, Taiwan.
105. M. C. Chan(詹明哲), Y. S. Su(蘇益信), C. F. Lin(林清富) and C. -K. Sun (孫啟光), “1.8 m-resolution optical coherence tomography using nonidentical-multiple-quantum-well superluminescent diodes,” OPT2002, Paper FC2-4, Taipei, Taiwan.
106. Tsung-han Tsai(蔡宗涵), Kai-yin Liu(劉凱尹), Ching-Fuh Lin(林清富),”Nano-migration,” OPT2002, Paper PD-17, Taipei, Taiwan.
107. Ching-Fuh Lin, Chia-Wei Tsai, Yu-Chia Chang, Gagik Sh. Shmavonyan, and Yi-Shin Su, “Extremely broadband superluminescent diodes/semiconductor optical amplifiers in optical communication band,” Photonics West 2003, Paper 4989-17, San Jose, USA, 2003.
108. Gagik Sh. Shmavonyan, Yi-Shin Su, and Ching-Fuh Lin, “Peculiarities of emission characteristics
from semiconductor optical amplifier with nonidentical multiple quantum wells,” Photonics West
2003, Paper 4986-52, San Jose, USA, 2003.
109. Ching-Fuh Lin, Ting-Wien Su, Eih-Zhe Liang, Hsing-Hung Hsieh, and Wu-Ping Huang, “Light
emitting diodes on Si,” Photonics West 2003, Paper 4996A-7, San Jose, USA, 2003. (Invited)
http://www.cost.ntust.edu.tw/opt2002/info/paper_query.php?chineses=%B1%E7%AB%B3%B4%BC&name_eng=&title=&brief=&Submit=%ACd%B8%DF##�http://www.cost.ntust.edu.tw/opt2002/info/paper_query.php?chineses=%B1%E7%AB%B3%B4%BC&name_eng=&title=&brief=&Submit=%ACd%B8%DF##�http://www.cost.ntust.edu.tw/opt2002/info/paper_query.php?chineses=%C4%AC%AFq%ABH&name_eng=&title=&brief=&Submit=%ACd%B8%DF##�http://www.cost.ntust.edu.tw/opt2002/info/paper_query.php?chineses=%C4%AC%AFq%ABH&name_eng=&title=&brief=&Submit=%ACd%B8%DF##�
-
共 28 頁第23頁110. Di-Ku Yu, Yi-Shin Su, Chia-Wei Tsai, and Ching-Fuh Lin, “Improved temperature
characteristics of semiconductor lasers due to carrier redistribution among nonidentical multiple
quantum wells,” Photonics West 2003, Paper 4986-32, San Jose, USA, 2003.
111. Yi-Shin Su, Fei-Hung Chu, and Ching-Fuh Lin, “Broadband tuning in optical-communication
band using Fabry-Perot laser diodes without anti-reflection coating,” Photonics West 2003, Paper
4995-25, San Jose, USA, 2003.
112. Ching-Fuh Lin, Chih-Hung Tsai , Chia-Wei Tsai, D. P. Tsai, and Yi-Shin Su, “2W semiconductor
laser with diffraction-limited output beam at 1620 nm wavelength,” CLEO2003, Paper CTuM,
Baltimore, USA, 2003.
113. Yi-Shin Su, Fei-Hung Chu, and Ching-Fuh Lin, “Broadly tunable external-cavity semiconductor
lasers in optical-communication band using Fabry-Perot laser diodes without anti-reflection
coating” CLEO2003, Paper CTuM, Baltimore, USA, 2003.
114. MingChe Chan, Ching-Fuh Lin, Yi-Shin Su, and Chi-Kuang Sun, “1.5µm resolution optical
coherence tomography using nonidentical-multiple-quantum-well superluminescent diodes,”
CLEO2003, Paper CMU7, Baltimore, USA, 2003.
115. Ching-Fuh Lin, Chia-Wei Tsai, Yi-Shin Su, and Gagik Sh. Shmavonyan, “Extremely broadband InGaAsP/InP superluminescent diode/semiconductor optical amplifiers with emission spectrum covering from 1250 nm to 1650 nm,” Optical Amplifiers and Their Applications Topical Meeting (OAA2003), Paper MD20, Otaru, Japan, 2003.
116. Ching-Fuh Lin, Chih-Hung Tsai, Chia-Wei Tsai, D. P. Tsai, and Yi-Shin Su, “High-power
semiconductor laser with diffraction-limited output beam,“ CLEO/Europe03, Munich, Germany,
2003.
117. Eih-Zhe Liang, Wu-Ping Huang, Ting-Wien Su, Hsing-Hung Hsieh, and Ching-Fuh Lin, “Efficient
light emission from metal-oxide-silicon tunneling diodes on Si,“ CLEO/Europe03, Munich,
Germany, 2003.
118. Ching-Fuh Lin, Yi-Shin Su, Fei-Hung Chu, and Chia-Wei Tsai, “Broadband semiconductor optical
amplifiers and tunable semiconductor lasers,” ITCOM 03, Paper 5248-28, Orlando, Florida, USA,
2003. (invited).
119. Chi-Chia Huang, Chin-Hui Cheng, Yi-Shin Su, and Ching-Fuh Lin, “Mode competition in
wide-range tunable dual-wavelength semiconductor laser using nonidentical ingaasp quantum wells,
“ CLEO/PR2003, Paper TU4B-(2)-5, Taipei, Taiwan, 2003.
120. Wu-Ping Huang and Ching-Fuh Lin, “Enhancing light-emission efficiency from Si-MOS tunneling
diodes by KOH wet etching, “CLEO/PR2003, Paper TU3B-(2)-5, Taipei, Taiwan, 2003.
121. Chia-Wei Tsai, Gagik Sh. Shmavonyan, Yi-Shin Su, and Ching-Fuh Lin, “Extremely broadband
superluminsecent diodes/semiconductor optical amplifiers in optical communication band,”
-
共 28 頁第24頁CLEO/PR2003, Paper TU4B-(2)-4, Taipei, Taiwan, 2003.
122. Chao-Hsin Wu, Di-Ku Yu, and Ching-Fuh Lin, “Improved temperature characteristics of
semiconductor lasers due to carrier redistribution among nonidentical multiple quantum wells,”
CLEO/PR2003, Paper W1B-(2)-3, Taipei, Taiwan, 2003.
123. Chi-Chia Huang(黃啟嘉),Yi-Shin Su(蘇益信),Ching-Fuh Lin(林清富), “Simultaneous generation
of eight wavelengths with about 20 nm channel spacing from a single semiconductor laser”,
OPT2003, Paper TA1-2, Taipei, Taiwan.
124.Yi-Shin Su(蘇益信), Ching-Fuh Lin(林清富), “Broad area laser diode with diffraction limited
emission farfield”, OPT2003, Paper TA1-6, Taipei, Taiwan.
125. Chi-Chia Huang(黃啟嘉),Yi-Shin Su(蘇益信),Ching-Fuh Lin(林清富), “Dual-wavelength tuning
and mode anti-competition in semiconductor lasers”, OPT2003, Paper TB1-5, Taipei, Taiwan.
126. Chia-Wei Tsai(蔡家偉), Yi-Shin Su(蘇益信), Fei-Hung Chu(褚飛宏), Ching-Fuh Lin(林清
富),”Broadband tunable external-cavity semiconductor lasers using Fabry-Perot lasers diodes
without ar-coating”, OPT2003, Paper TE2-7, Taipei, Taiwan.
127. Cha-Hsin Chao(趙家忻), Kuo-Jui Sun(孫國瑞),Chi-Hun Huang(黃齊亨),Shieh-Yueh Yang(楊謝
樂),Herng-Er Horng(洪姮娥), Ching-Fuh Lin(林清富),” Using the metallic photonic box to modify
blackbody radiation for illumination purpose”, OPT2003, Paper FB1-3, Taipei, Taiwan.
128. Chao-Hsin Wu(吳肇欣), Yi-Shin Su(蘇益信), Ching-Fuh Lin(林清富),” Measurement of gain
spectrum on semiconductor laser by a two-section technique”, OPT2003, Paper FE2-3, Taipei,
Taiwan.
129. Kuo-Jui Sun(孫國瑞), Yi-Shin Su(蘇益信), Ching-Fuh Lin(林清富),”Erbium-doped glass on
silicon emitting light at 1530nm”, OPT2003, Paper FB4-3, Taipei, Taiwan.
130. Chi-Chia Huang, Fei-Hung Chu, Yi-Shin Su, and Ching-Fuh Lin, “Anti-competition of laser modes
in semiconductor lasers,” Photonics West 2004, Paper 5349-33, San Jose, USA, 2004.
131. Chi-Chia Huang and Ching-Fuh Lin, “Dual-wavelength semiconductor laser with 191 nm mode
spacing,” Photonics West 2004, Paper 5365-3, San Jose, USA, 2004.
132. Yi-Shin Su, Chih-Hung Tsai, Chia-Wei Tsai, and Ching-Fuh Lin, “Angled broad-area
semiconductor lasers to emit high output power with good beam quality,” Photonics West 2004,
Paper 5365-15, San Jose, USA, 2004.
133. Chi-Chia Huang, Yi-Shin Su, and Ching-Fuh Lin, “Simultaneous generation of eight channels
with 20 nm spectral spacing from one single semiconductor laser,” CLEO2004, Paper CWC, San
Francisco, USA, 2004.
134. Chao-Hsin Wu, Yi-Shin Su, Ching-Fuh Lin,” Measurement of broadband gain spectrum of
-
共 28 頁第25頁semiconductor optical amplifiers using a two-section technique,” CLEO2004, Paper
CMJ, San Francisco, USA, 2004.
135. Kuo-Jui Sun, Yi-Shin Su, Ching-Fuh Lin, “Light emission at 1530 nm from mixture of Er2O3 and
P2O5 nanoparticles on silicon,” IEEE-NANO 2004, Munich,Germany, 2004.
136. Eih-Zhe Liang, Chao-Jei Huang, and Ching-Fuh Lin, “20nm Silicon nanorods fabricated by
reactive ion etch,” IEEE-NANO 2004, Munich, Germany, 2004.
137. Chi-Chia Huang, Yi-Shin Su, and Ching-Fuh Lin, “A new type of gain nonlinearity leading to
anti-competition of laser mode”, Nonlinear Optics Topical Meeting, Paper WD20, Waikoloa,
Hawaii, USA, 2004.
138.Ching-Fuh Lin*, Cha-Hsin Chao, Kuo-Jui Sun, L. A. Wang, W. C. Cheng, Shieh-Yueh Yang, and
Herng-Er Horng, “Photonic Boxes Modify Black-Body Radiation to Enhance Visible Spectrum,”
International Workshop on Photonic-crystal Devices and Their Applications, National Taiwan
Normal University, Taipei, Taiwan, 2004. (invited)
139.Ching-Fuh Lin, “Metallic photonic boxes on Si to enhance visible spectrum of black-body
radiation,” The Croucher Advanced Study Institute on Frontiers of Photonics Research:
nanophotonics, Femtosecond Photonics and Biophotonics, Chinese University of Hong Kong, Hong
Kong, 6-10 December, 2004. (Invited)
140.Ching-Fuh Lin, “Silicon based nano-structure light emitters,” International Symposium on
Nano-Technology and Applications(奈米科技與應用國際研討會),National Chung Cheng
University, Min-Hsiung, Chia-Yi, Taiwan, December 14, 2004. (invited)
141. Ching-Fuh Lin, “Broadband Semiconductor Optical Amplifiers and Tunable Semiconductor
Lasers,” Symposium on Technologies for High-Capacity Optical Communication, Paper THII-1
National Sun Yat-Sen University, KaoShiuang, Taiwan, December 16-17, 2004. (invited)
142.Eih-Zhe Liang, Chao-Jei Huang, and Ching-Fuh Lin, “Anisotropic Reactive Ion Etch Of Silicon For Nanoelectronics And Nanophotonics”, OPT2004, Paper A-SU-III14-4, Jhongli, Taiwan, 2004.
143.Yi-Shin Su, Chao-Hsin Wu and Ching-Fuh Lin, “Wavelength Switching In Two Section Laser Diode With Nonidentical MQWS” , OPT2004, Paper C-SA-IV1-1, Jhongli, Taiwan, 2004.
144.Cha-Hsm Chao and Ching-Fuh Lin, “Fabricating Metallic Photonic Boxes To Enhance Specific Wavelength” , OPT2004, Paper A-SA-I1-2, Jhongli, Taiwan, 2004.
145.Han-Wei Wu, Chao-Jei Huang, Chia-Wei Tsai and Ching-Fuh Lin, “The bandwidth reduction effect of photoluminescence from silicon nanopillar structure, OPT2004, Paper A-SU-II10-8, Jhongli, Taiwan, 2004.
146.Kuo-Jui Sun, Yi-Shin Su and Ching-Fuh Lin, “Make a 1530 nm Light Source with Mixture of Er2O3, P2O5 Nanoparticles, and Spin-on Glass on Silicon” , OPT2004, Paper A-SA-II4-8, Jhongli, Taiwan, 2004.
147.Zhao-Ren Huang, Chao-Jei Huang, Eih-Zhe Liang and Ching-Fuh Lin, “Study of Thermal Treatment Conditions on Silicon Crystal Quality”, OPT2004, Paper PA-SA1-11, Jhongli, Taiwan,
-
共 28 頁第26頁2004.
148.Wo-Chung Liu, Cha-Hsm Chao, Chia-Wei Tsai and Ching-Fuh Lin, “Energy Transfer Observed In Pumping Photonic Box Pumped With 532nm Laser”, OPT2004, Paper B-SA-VII2-3, Jhongli, Taiwan, 2004.
149.Yau-Te Huang and Ching-Fuh Lin, “Influence of Oxidation temperature and Oxidation time on emission intensity of ZnO” , OPT2004, Paper A-SU-III14-2, Jhongli, Taiwan, 2004.
150.Yi Ho, Chao-Hsin Wu, Yi-Shin Su, Chia-Wei Tsai and Ching-Fuh Lin, “Influence Of Carrier Tunneling Between Multiple Quantum Wells On Modulation Response Of Laser Diodes” , OPT2004, Paper C-SA-IV2-1, Jhongli, Taiwan, 2004.
151.Wei-Che Chang and Ching-Fuh Lin, “Measurement of gain spectrum of quantum-dot amplifiers” ,
OPT2004, Paper B-SA-VII2-7, Jhongli, Taiwan, 2004.
152. Kuo-Jui Sun, Yi-Shin Su and Ching-Fuh Lin, “Emitting 1530 nm light from mixture of Er2O3,
P2O5 Nanoparticles and spin-on- glass on Silicon,” Photonics West 2005, Paper 5723-14, San Jose,
USA, 2005.
153. Yi-Shin Su, Chao-Hsin Wu and Ching-Fuh Lin, “Wavelength switching and light modulation in
laser diodes with nonidentical multiple quantum wells,” Photonics West 2005, Paper 5722-28, San
Jose, USA, 2005.
154. Chih-Hung Tsai, Yi-Shin Su, and Ching-Fuh Lin, “Influence of geometrical factors on angled
broad-area semiconductor lasers for high output power with good beam quality,” Photonics West
2005, Paper 5738-45, San Jose, USA, 2005.
155. Chi-Chia Huang, Yi-Shin Su, and Ching-Fuh Lin, “Semiconductor Laser for All-optical Switching
between Medium-wave Band and Long-wave Band in Optical-Fiber Communication,” Photonics
West 2005, Paper 5723-31, San Jose, USA, 2005.
156. Chih-Hung Tsai, Yi-Shin Su, and Ching-Fuh Lin, “Tunable and high-power semiconductor laser
with good beam quality in optical-communication band,” Photonics West 2005, Paper 5723-32, San
Jose, USA, 2005.
157. Eih-Zhe Liang , Chao-Jei Huang, and Ching-Fuh Lin, “Highly Anisotropic Reactive Ion Etch for
Fabrication of Silicon Nanostructure,” 2nd International Conference on Advanced Materials and
Nanotechnology (AMN-2),Queenstown, New Zealand, February 2005.
158. Kuo-Jui Sun, Yi-Shin Su, Ching-Fuh Lin, “Generation of 1530 nm Light from Nanoparticle
Mixture Containing Er2O3, P2O5 and Si on Silicon Wafer,” 2nd International Conference on
Advanced Materials and Nanotechnology (AMN-2),Queenstown, New Zealand, February 2005.
159. Yi-Shin Su and Ching-Fuh Lin, “Nonuniform Carrier Trapping among Quantum Dots,” 2nd
International Conference on Advanced Materials and Nanotechnology (AMN-2),Queenstown, New
Zealand, February 2005.
160. Ching-Fuh Lin, “Nano-structure for Nano-Photonics on Si,” 2005 US Air Force/Taiwan
-
共 28 頁第27頁Nanoscience Initiative Workshop, Honolulu (Island of Oahu), Hawaii, Feb. 17-18,
2005.
161. Yi-Shin Su and Ching-Fuh Lin, “Anticompetition of laser modes in quantum dot lasers,”
CLEO2005, Paper CThH5, Baltimore, USA, 2005.
162. Eih-Zhe Liang, Chao-Jei Huang, and Ching-Fuh Lin, “Scalable highly-anisotropic reactive ion
etch on Si for nanophotonics,” CLEO/Europe05, Munich, Germany, 2005.
163. Han-Wei Wu, Shu-Jia Shiu, Chao-Jei Huang, Chia-Wei Tsai, and Ching-Fuh Lin, “The bandwidth
reduction effect of photoluminescence spectrum from nanostructures on silicon,” CLEO/Europe05,
Munich, Germany, 2005.
164. Chia-Hsin Chao and Ching-Fuh Lin, “Enhance the blue light emission of black-body radiation
with nano-photonic boxes,” CLEO/Europe05, Paper CK4-1-FRI, Munich, Germany, 2005.
165. Kuo-Jui Sun, Yi-Shin Su, Ching-Fuh Lin, “Generating 1500 nm Light from Silicon Based
Light-Emitting Layer Mixed with Er2O3 and Yb2O3 Nanoparticles,” CLEO/Europe05, Paper
CK4-2-FRI, Munich, Germany, 2005.
166. Chih-Hung Tsai, Yi-Shin Su, and Ching-Fuh Lin, “Superluminescent diodes with output power
over 1 W and with diffraction–limited beam quality,” CLEO/Europe05, Paper CE7-5-THU, Munich,
Germany, 2005.
167. Yi-Shin Su, Wei-Che Chang, Chao-Hsin Wu, and Ching-Fuh Lin, “Gain measurement of
broadband quantum dot SOA by two-section technique,” CLEO/Europe05, Paper CE7-3-THU,
Munich, Germany, 2005.
168. Wo-Chung Liu, Cha-Hsin Chao, Chia-Wei Tsai, Ching-Fuh Lin, “Energy up conversion caused by
metallic photonic boxes,” IEEE-NANO 2005, Paper TU-A2-4, Nagoya, Japan, 2005.
169. Cha-Hsin Chao and Ching-Fuh Lin, “Enhance the Blue-Light Emission of Black-Body Radiation
with Metallic Photonic Boxes,” IEEE-NANO 2005, Paper WE-A2-2, Nagoya, Japan, 2005.
170. Kuo-Jui Sun, Bin-Hon Shih, Yi-Shin Su, E Z. Liang, and Ching-Fuh Lin, “Si-based light emission
at 1530 nm with optical gain using mixture of Er2O3, P2O5, Yb2O3 nanoparticles and spin-on glass,”
IEEE-NANO 2005, Paper TH-A2-3, Nagoya, Japan, 2005.
171. Eih-Zhe Liang, Zhao-Ren Huang, Ching-Fuh Lin, and Chieh-Hsiung Kuan, “Laser Assisted
Imprint of Silicon Nanostructure with Good Crystal,” IEEE-NANO 2005, Paper WE-P2-2, Nagoya,
Japan, 2005.
172. Yi-Shin Su, Wei-Che Chang and Ching-Fuh Lin, “Nonuniform Carrier Trapping among Quantum
Dots,” IEEE-NANO 2005, TU-PS7-4, Nagoya, Japan, 2005.
173. Eih-Zhe Liang, Zhao-Ren Huang, Ching-Fuh Lin, and Chieh-Hsiung Kuan, “Laser direct imprint
of silicon nanostructure with low damage on Si for optical devices,” IQEC/CLEO-PR 2005, Paper
CFE3-6, Tokyo, Japan, 2005.
-
共 28 頁第28頁174. S.M. Wan, C.W. Chow, H.K. Tsang, Yi-Shin Su and Ching-Fuh.Lin, “Broadband
Wavelength Conversion in Semiconductor Optical Amplifier with Non-identical Multiple Quantum
Wells,” IQEC/CLEO-PR 2005, Tokyo, Japan, 2005.
175. Cha-Hsin Chao and Ching-Fuh Lin, “Enhance black-body radiation in blue-light range with
metallic photonic boxes,” IQEC/CLEO-PR 2005, Paper CThE2-5, Tokyo, Japan, 2005.
176.Yi Ho, Wei-Chieh Tzeng and Ching-Fuh Lin, “Novel Temperature Characteristics of Gain Behaviors in
Quantum-Dot Lasers,” NUSOD 2005 (Numerical Simulation of optoelectronic devices), Berlin,
Germany, Sept. 19-22, 2005.
177. Ching-Fuh Lin, Eih-Zhe Liang, Chu-Ting Huang, Kung-An Lin, and Shiu-Jia Shu, “Room
Temperature Si Laser at Si Indirect-Bandgap Energy by Electrical Pumping”, 18th Annual Lasers
and Electro Optics Society Meeting, Paper WAA 4, 23 – 27 October 2005, Sydney, Australia, 2005.
178. Kuo-Jui Sun, Ping-Hung Shih, Yi-Shin Su, Eih-Zhe Liang, and Ching-Fuh Lin, “Optical Gain at
1530 nm from Si-based Light Emitting Layer Containing Mixture of Er2O3, P2O5, Yb2O3
Nanoparticles and Spin-on Glass,” 18th Annual Lasers and Electro Optics Society Meeting, Paper
TuJ 2, 23 – 27 October 2005, Sydney, Australia, 2005.
179. Ching-Fuh Lin, “Electrically pumped Si laser using nano-particle modified metal-oxide-Si
structures,” 第三屆台日交流研討會(3rd Symposium on Nanophotonics Sciences and Technology),
Hua-Lien, Taiwan, Sept. 2005. (invited)
180. Ching-Fuh Lin and Cha-Hsin Chao, “Photonic Boxes Modify Black-Body Radiation to Enhance
Visible Spectrum,” 南台灣奈米材料研討會, National Cheng-Kung University, Tainan, Taiwan,
Sept. 2005. (invited)
181. Ching-Fuh Lin, Eih-Zhe Liang, Chu-Ting Huang, Kung-An Lin, and Shiu-Jia Shu,
“Electrically-pumped Silicon-laser using nano -particle-modified metal-oxide-Si structures,”
IEEE IECON 2005, Raleigh, North Carolina, November 6-10 2005. (invited)
182. Yi-Shin Su and Ching-Fuh Lin, “CW Operation of Broad Band Light Source by Asymmetric
Multiple Quantum Well Structure” , OPT2005, Paper PA-FRI-069, Tainan, Taiwan, 2005.
183. Ping-Hung Shih, Kuo-Jui Sun, Yi-Shin Su, and Ching-Fuh Lin, “Emitting 1530 nm light on Si
with Optical Gain from Light Emitting Layer Containing of Er2O3 Nanoparticle, P2O5, and
Spin-on Glass”, OPT2005, Paper B-FR-IV 2-2, Tainan, Taiwan, 2005.
184. Wei-Che Chang, Chao-Hsin Wu, Yi-shin Su, Hao-Hsiung Lin, and Ching-Fuh Lin, “Enhance
Modulation Speed in Quantum-dot Lasers Using Second Quantized State Device”, OPT2005, Paper
PB-FR2-83, Tainan, Taiwan, 2005.
185. Cha-Hsin Chao, Cheih-Yu Kang and Ching-Fuh Lin, “Theoretical calculation for the visible light
enhancement of the black-body radiation of metallic photonic boxes”, OPT2005, Paper
PA-FR1-049, Tainan, Taiwan, 2005.
-
共 28 頁第29頁186. Eih-Zhe Liang and Ching-Fuh Lin, “Model and Measurement of Internal
Efficiency in Metal-Oxide-Silicon Tunneling-Diode”, OPT2005, Paper PA-FR1-098, Tainan,
Taiwan, 2005.
187. Chu-Ting Huang, kung An Lin, Shu-Chia Shiu and Ching-Fuh Lin, “Nearly Laser Emitting Light
at Si Band Gap Energy Under Room-Temperature and Continuous-wave Operation,” OPT2005,
Paper A-FR-Ⅱ 4-1, Tainan, Taiwan, 2005.
188. Shu-Chia Shiu, Han-Wei Wu and Ching-Fuh Lin, “Narrowing Photoluninescence Spectrum of
Silicon with Spun-On Silicon dioxide Nanoparticles”, OPT2005, Paper PA-FR1-020, Tainan,
Taiwan, 2005.
189. Ching-Fuh Lin, “Toward electrically-pumped Si laser,” OPT2005, Paper A-FR-1, Tainan, Taiwan,
2005. (Invited)
190. Yi-Shin Su(蘇益信) , Wei-Je Tzeng(曾煒傑 )and Ching-Fuh Lin (林清富) , “Negative
Characteristic Temperature in Quantum Dot Lasers,” 中華民國物理年會,Paper BG04, Taipei,
January 16-18, 2006.
191. C. H. Chao (趙家忻), C. S. Wu (吳憲昌) and C. F. Lin (林清富), “Enhancement of visible light in
the black-body radiation with metallic photonic boxes,” 中華民國物理年會,Paper DA07, Taipei,
January 16-18, 2006.
192. Eih-Zhe Liang (梁奕智 ), and Ching-Fuh Lin (林清富), “Investigation of optical gain in
electrically-pumped MOS silicon tunneling diodes,” 中華民國物理年會,Paper AC04, Taipei,
January 16-18, 2006.
193.Yi-Shin Su, Chih-Hung Tsai and Ching-Fuh Lin, “Wavelength tunable injection locking of high
power super luminescent diode with 1.4 watt diffraction-limited output,” Photonics West 2006,
Paper 6104-33, San Jose, USA, 2006.
194. Yi-Shin Su, Yi Ho, Wei-Che Chang, Ching-Fuh Lin, “Investigation of phonon bottleneck effect on
quantum dot lasers,” Photonics West 2006, Paper 6115-54, San Jose, USA, 2006.
195. Cha-Hsin Chao, Cen-Shawn Wu, Ching-Fuh Lin, “Nano-photonic boxes to modify black-body
radiation for visible light emission,” Photonics West 2006, Paper 6128-56, San Jose, USA, 2006.
196. Ching-Fuh Lin, Ding-Ye Chiang, and Yi-Shin Su, “Anti-competition of laser modes in quantum
dot lasers,” Photonics West 2006, Paper 6129-1, San Jose, USA, 2006.
197. S.M. Wan, H.K. Tsang, Y.S. Su, and C.F. Lin, “Inhibiting Pattern-Effects in Semiconductor
Optical Amplifier using Carrier Reservoir in an Asymmetrical Multiple Quantum Well Structure,”
OFC2006, Anaheim, California, USA, 2006.
198. S. M. Wan, Hon Ki Tsang, Y. S. Su, C. F. Lin, “Cross Gain Modulation in Asymmetrical
Multi-Quantum Well Semiconductor Optical Amplifier,” 2006 Optical Amplifiers and Their
-
共 28 頁第30頁Applications (OAA) Topical Meeting, Whistler, British Columbia, Canada, June
25-28, 2006.
199.W. C. J. Wei, S. E. Lin, J. M. Sung, M. J. Chen, and C. F. Lin, “Perfect and designed photonic
bandgap crystals synthesized on template,” (poster) 2006 Beijing International Materials Week
(2006 BIMW), June 25-30, Beijing China, 2006.
200. Shu-Chia Shiu(許書嘉), Eih-Zhe Liang(梁奕智), Ching-Fuh Lin(林清富),“Fabrication of
Silicon Surface Nanostructre Using Laser Assisted Direct Imprint 利用雷射輔助壓印製作矽表面
奈米結構" , OPT2006(台灣光電科技研討會暨國科會光電學門研究成果發表會) , National
Tsing Hua University(清華大學), Taiwan Hsin Chu(台灣新竹), Dec. 15-16, 2006.
201. Chun-Yu Lee(李俊育) and Ching-Fuh Lin(林清富),“Electroluminescence from ZnO
nanoparticles/Organic Nanocomposites ", OPT2006(台灣光電科技研討會暨國科會光電學門研
究成果發表會) , National Tsing Hua University(清華大學), Taiwan Hsin Chu(台灣新竹), Dec.
15-16, 2006.
202. Shih-Che Hung(洪士哲), Eih-Zhe Liang(梁奕智), and Ching-Fuh Lin(林清富),“Sidewall
Smoothing for Silicon Waveguide by Excimer Laser Reformation (使用準分子雷射重組製作光滑
矽波導)" , OPT2006(台灣光電科技研討會暨國科會光電學門研究成果發表會) , National
Tsing Hua University(清華大學), Taiwan Hsin Chu(台灣新竹), Dec. 15-16, 2006.
203. Chieh-Yu Kanga(康桀侑), Cha-Shin Chaoa (趙家忻), Shu-Chia Shiu(許書嘉), Ching-Fuh
Lin(林清富),“Surface Enhanced Micro-PL of Pt Nano-island film" ,OPT2006(台灣光電科技
研討會暨國科會光電學門研究成果發表會) , National Tsing Hua University(清華大學),
Taiwan Hsin Chu(台灣新竹), Dec. 15-16, 2006.
204. Yi-Shin Su(蘇益信) and Ching-Fuh