| - | 40 GHz adiabatic soliton generation of a modulator based dual frequency beat signal using dispersion decreasing fiber based Raman Amplification | Ju Han Lee; HAN, YOUNG-GEUN; KIM, SANG HYUCK; Lee, Sang Bae |
| - | Raman Fiber Laser Temperature Probe incorporating Fiber Bragg Gratings for Long-Distance Remote Sensing Applications | Junhee Kim; Ju Han Lee; HAN, YOUNG-GEUN; KIM, SANG HYUCK; Lee, Sang Bae |
| - | Tunable Dual-Wavelength Laser using Two-mode Fiber Bragg Gratings | Dae-Seong Moon; Seongin Hwang; HAN, YOUNG-GEUN; Un-Chul Paek; Youngjoo Chung |
| - | Tunable Disperion Compensator Based on Chirped Fiber Bragg Grating with Structural Bending | Sunmin Choi; Bae Jun Kye; HAN, YOUNG-GEUN; KIM, SANG HYUCK; Lee, Sang Bae |
| - | Modal cut-off in Honeycomb Photonic Bandgap Fibers | Je-Hyung Bahk; HAN, YOUNG-GEUN; Ju Han Lee; KIM, SANG HYUCK; Lee, Sang Bae; Ingak Hwang; Yonghee Lee |
| - | Designing the dispersion properties of photonic crystal fibers | Jehyung Bahk; Ingak Hwang; HAN, YOUNG-GEUN; Ju Han Lee; KIM, SANG HYUCK; Yonghee Lee; Lee, Sang Bae |
| - | Wavelength tunable multichannel filter based on cascaded long-period fiber gratings | HAN, YOUNG-GEUN; Ju Han Lee; KIM, SANG HYUCK; Lee, Sang Bae |
| - | 2~5 times tuneable repetition rate multiplication of a 10 GHz pulse source using a tuneable linearly chirped fibre Bragg grating and a nonlinear optical loop mirror | Ju Han Lee; Chang You Min; HAN, YOUNG-GEUN; KIM, SANG HYUCK; Lee, Sang Bae |
| - | Flexible tunable dispersion compensator based on chirped fiber Bragg gratings without a central wavelength shift | Bae Jun Kye; HAN, YOUNG-GEUN; Junhee Kim; KIM, SANG HYUCK; Lee, Sang Bae; Je-Myung Jeong |
| - | 40 GHz adiabatic soliton generation from dual frequency beat signal using dispersion decreasing fiber based Raman amplification | Ju Han Lee; T. Kogure; HAN, YOUNG-GEUN; Lee, Sang Bae; D. J. Richardson |
