Issue Date | Title | Author(s) | Source | WOS | Fulltext/Archive link |
2007 | Large negative Goos-Hanchen shift at metal surfaces | P. T. Leung; C.W. Chen; H.-P. Chiang | Optics Communications | 105 | |
2007 | Large negative Goos–Hanchen shift at metal surfaces | P.T. Leung; C.W. Chen; H.-P. Chiang | | | |
2011 | Laser assisted nano molding | Hsin Wei Huang; Cheng Hung Chu; Ming Lun Tseng; Hai-Pang Chiang ; Din Ping Tsai | | | |
2010 | Laser-induced phase transitions of Ge2Sb2Te5 thin films used in optical and electronic data storage and in thermal lithography | Cheng Hung Chu; Chiun Da Shiue; Hsuen Wei Cheng; Ming Lun Tseng; Hai-Pang Chiang ; Masud Mansuripur; Din Ping Tsai | Optics Express | 80 | |
2017 | Light energy transformation over a few nanometers | Huang, Hung Ji; Liu, Bo-Heng; Su, James; Chen, Po-Jui; Lin, Chun-Ting; Chiang, Hai-Pang ; Kao, Tsung Sheng; Chau, Yuan-Fong Chou; Kei, Chi-Chung; Hwang, Chi-Hung | J PHYS D APPL PHYS | 8 | |
2011 | Light manipulation by gold nanobumps | Chia Min Chang; Cheng Hung Chu; Bo-Han Chen; Ming Lun Tseng; Hai-Pang Chiang ; Din Ping Tsai | | | |
2011 | Local electrical characterization of laser-recorded phase-change marks on amorphous Ge2Sb2Te5 thin films | Chia Min Chang; Cheng Hung Chu; Ming Lun Tseng; Hai-Pang Chiang ; Masud Mansuripur; Din Ping Tsai | Optics Express | 43 | |
2021 | Localized surface plasmon resonance enhanced by the light-scattering property of silver nanoparticles for improved luminescence of polymer light-emitting diodes | Huang, Cheng-Liang; Huang, Hung Ji; Chen, Sy-Hann; Huang, Yu-Siang; Kao, Po-Ching; Chau, Yuan-Fong Chou; Chiang, Hai-Pang | J IND ENG CHEM | 8 | |
2019 | Magnetic Field-Enhancing Photocatalytic Reaction in Micro Optofluidic Chip Reactor | Hung Ji Huang; Yen Han Wang; Yuan-Fong Chou Chau; Hai-Pang Chiang ; Jeffrey Chi-Sheng Wu | Nanoscale Research Letters | 15 | |
2001 | Magnetic properties of Co-Fe-Ni films | S.U. Jen; H.P. Chiang ; C.M. Chung; M.N. Kao | Journal of Magnetism and Magnetic Materials | | |
2016 | Manipulating near field enhancement and optical spectrum in a pair-array of the cavity resonance based plasmonic nanoantennas | Yuan-Fong Chou Chau; Jhih-Cyuan Jiang; Chung-Ting Chou Chao; Hai-Pang Chiang ; Chee Ming Lim | Journal of Physics D: Applied Physics | 49 | |
2003 | Measurement of phase variance and light intensity distribution at the focal plane | C. F. Yu; C. Y. Chen; Y. H. Fu; N. H. Lu; W. C. Liu; H.-P. Chiang ; D. P. Tsai | Physics (物理年會物理雙月刊) | | |
2015 | Metal Enhanced Fluorescence of Silver Hybrid Nanostructures | Jiunn-Woei Liaw; Meng-Han Fang; Yu-Hsiang Huang; Kai-Hong Tsai; Chieh-Jen Lin; Hai-Pang Chiang | | | |
2016 | Metal Enhanced Fluorescence of Silver Hybrid Nanostructures | Jiunn-Woei Liaw; Meng-Han Fang; Yu-Hsiang Huang; Kai-Hong Tsai; Chieh-Jen Lin; Hai-Pang Chiang | | | |
2018 | Metal-enhanced fluorescence by using silver nanorod on hyperbolic metamaterial substrate | Chih-Hsien Lai; Kai-Hong Tsai; Ya-Chih Wang; Yuan-Fong Chou Chau; Hai-Pang Chiang | | | |
1992 | Micrometer-resolution time and coherence domain hybrid laser ranging using 100-ps pulses | P.-S. Cheng; H.-P. Chiang ; J. Wang | | | |
2022 | Mid infrared sensing structure based on a metal-insulator-metal waveguides with a triangular-shaped resonator | Tan, Yu Ming; Chao, Chung-Ting Chou; Kooh, Muhammad Raziq Rahimi; Huang, Hung Ji; Thotagamuge, Roshan; Lim, Chee Ming; Chiang, Hai-Pang ; Chau, Yuan-Fong Chou | OPTICS COMMUNICATIONS | 10 | |
2010 | The model simulation of human eyes as aids to optical systems design | S. H. Huang; M. W. Chang; Y. H. Chen; H. -P. Chiang | | | |
2015 | Monitoring Cluster Ions Derived from Aptamer-Modified Gold Nanofilms under Laser Desorption/Ionization for the Detection of Circulating Tumor Cells | Wei-Jane Chiu; Tsung-Kai Ling; Hai-Pang Chiang ; Han-Jia Lin ; Chih-Ching Huang | Acs Applied Materials & Interfaces | 36 | |
2015 | Multi-Color Surface Plasmon-Enhanced Photoluminescence of Organic Dyes Using Annealed AgOx Thin Film | Ming Lun Tseng; Bing-Hann Leu; Ping-Yu Li; Kuang Sheng Chung; Hai-Pang Chiang | Plasmonics | 9 | |