Publications
DISCLAIMER: This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All persons copying this information are expected to adhere to the terms and constraints invoked by each author's copyright. In most cases, these works may not be reposted without the explicit permission of the copyright holder.
Journal Papers
G.-H. Li, T.-D. Hsieh, C.-H. Wu, M.-H. Shih, H.-C. Kuo, S.-Y. Tseng, Y.-J. Chiu, and C.-K. Lee, "Higher-order-mode supercontinuum generation based on shortcut to adiabaticity coupling," Optics & Laser Technology 179, 111409 (2024). [PDF][DOI]
C.-H. Chen, Y.-F. Lo, G.-X. Lu, Y.-J. Hung, S.-Y. Tseng, "Adiabaticity engineered silicon coupler with design-intended splitting ratio," IEEE Photonics Journal 16, 6600905 (2024). [PDF][DOI]
Y.-J. Hung, C.-H. Chen, H.-C. Chung, J.-Z. Lai, and S.-Y. Tseng, "Compact and broadband silicon polarization splitter-rotator using adiabaticity engineering," in Optics Letters 49, 1852-1855 (2024). [PDF][DOI]
H.-C. Chung, C.-H. Chen, G.-X. Lu, Y.-J. Hung, and S.-Y. Tseng, "Adiabaticity engineered silicon polarization independent 3-dB coupler for the O-band," IEEE Photonics Journal 15, 6601206 (2023). [PDF][DOI]
H.-C. Chung and S.-Y. Tseng, "Shortcut to adiabaticity in a bent mode-evolution coupler," Optics Continuum 2, 224-231 (2023). [PDF][DOI]
B.-T. Wu and S.-Y. Tseng, "Shortcut to adiabaticity in bent waveguide couplers with a sign flip of the phase mismatch," Optics Express 30, 25121-25129 (2022). [PDF][DOI]
H.-C. Chung, G.-X. Lu, and S.-Y. Tseng, "Shortcut to adiabaticity in silicon polarization splitter rotator using multi-wavelength adiabaticity engineering," Optics Express 30, 8115-8125 (2022). [PDF][DOI]
H.-C. Chung, C.-H. Chen, Y.-J. Hung, and S.-Y. Tseng, "Compact polarization-independent quasi-adiabatic 2x2 3 dB coupler on silicon," Optics Express 30, 995-1002 (2022). [PDF][DOI]
Y.-J. Hung, C.-H. Chen, G.-X. Lu, F.-C. Liang, H.-C. Chung, and S.-Y. Tseng, "Compact and robust 2x2 fast quasi-adiabatic 3-dB couplers on SOI strip waveguides," Optics & Laser Technology 145, 107485 (2022). [PDF][DOI]
Shuo-Yen Tseng, "Robust light coupling in a quadratically bent directional coupler," IEEE Photonics Technology Letters 33, 343-346 (2021). [PDF][DOI]
Y.-L. Wu, F.-C. Liang, H.-C. Chung, and S.-Y. Tseng, "Adiabaticity engineering in optical waveguides," Optics Express 28, 30117-30129 (2020). [PDF][DOI]
H.-C. Chung, T.-C. Wang, Y.-J. Hung, and S.-Y. Tseng, "Robust silicon arbitrary ratio power splitters using shortcuts to adiabaticity," Optics Express 28, 10350-10362 (2020). [PDF][DOI]
J.-Y. Sie, H.-C. Chung, X. Chen, and S.-Y. Tseng, "Robust arbitrary ratio power splitter by fast quasi-adiabatic elimination in optical waveguides," Optics Express 27, 37622-37633 (2019). [PDF][DOI]
H.-C. Chung, and S.-Y. Tseng, “High fabrication tolerance and broadband silicon polarization beam splitter by point-symmetric cascaded fast quasiadiabatic couplers,” OSA Continuum 2, 2795-2808 (2019). [PDF][DOI]
H.-C. Chung, S. Martínez-Garaot, X. Chen, J. G. Muga, and S.-Y. Tseng, “Shortcuts to adiabaticity in optical waveguides,” EPL 127, 34001 (2019). [PDF][DOI]
Y.-J. Hung, Z.-Y. Li, H.-C. Chung, F.-C. Liang, M.-Y. Jung, T.-H. Yen, and S.-Y. Tseng, “Mode evolution based silicon-on-insulator 3 dB coupler using the fast quasiadiabatic dynamics,” Optics Letters 44, 815-818 (2019). [PDF][DOI]
H.-C. Chung and S.-Y. Tseng, “Robust silicon 3-dB coupler using inverse engineering based optimization,” Japanese Journal of Applied Physics 57, 08PC01 (2018). [PDF][DOI]
H.-C. Chung and S.-Y. Tseng, “Ultrashort and broadband silicon polarization splitter-rotator using fast quasiadiabatic dynamics,” Optics Express 26, 9655-9665 (2018). [PDF][DOI]
X. Chen, R.-D. Wen, J.-L. Shi, and S.-Y. Tseng, “Compact beam splitters in coupled waveguides using shortcuts to adiabaticity,” Journal of Optics 20, 045804 (2018). [PDF][DOI]
Y.-H. Liu and S.-Y. Tseng, “Robust Coherent Superposition of States using Quasiadiabatic Inverse Engineering,” Journal of Physics B: Atomic, Molecular and Optical Physics 50, 205501 (2017). [PDF][DOI][arXiv]
H.-C. Chung, K.-S. Lee, and S.-Y. Tseng, “Short and broadband silicon asymmetric Y-junction two-mode (de)multiplexer using fast quasiadiabatic dynamics,” Optics Express 25, 13626-13634 (2017). [PDF][DOI]
S. Martinez-Garaot, J. G. Muga, and S.-Y. Tseng, “Shortcuts to adiabaticity in optical waveguides using fast quasiadiabatic dynamics,” Optics Express 25, 159-167 (2017). [PDF][DOI]
X. Chen, R.-D. Wen, and S.-Y. Tseng, “Analysis of optical directional couplers using shortcuts to adiabaticity,” Optics Express 24, 18322-18331 (2016). [PDF][DOI]
C.-P. Ho and S.-Y. Tseng, “Optimization of adiabaticity in coupled-waveguide devices using shortcuts to adiabaticity,” Optics Letters 40, 4831-4834 (2015). [PDF][DOI]
T.-H. Pan and S.-Y. Tseng, “Short and robust silicon mode (de)multiplexers using shortcuts to adiabaticity,” Optics Express 23, 10405-10412 (2015). [PDF][DOI]
S.-Y. Tseng, “Robust coupled-waveguide devices using shortcuts to adiabaticity,” Optics Letters 39, 6600-6603 (2014). [PDF][DOI]
X. Chen, H.-W. Wang, Y. Ban, and S.-Y. Tseng, “Short-length and robust polarization rotators in periodically poled lithium niobate via shortcuts to adiabaticity,” Optics Express 22, 24169-24178 (2014). [PDF][DOI]
S.-Y. Tseng, R.-D. Wen, Y.-F. Chiu, and X. Chen, “Short and robust directional couplers designed by shortcuts to adiabaticity,” Optics Express 22, 18849-18859 (2014). [PDF][DOI]
S. Martinez-Garaot, S.-Y. Tseng*, and J. G. Muga, “Compact and high conversion efficiency mode sorting asymmetric Y-junction using shortcuts to adiabaticity,” Optics Letters 39, 2306-2309 (2014). [PDF][DOI]
C.-H. Lu, T.-Y. Chao, Y.-F. Chiu, S.-Y. Tseng, and H.-C. Hsu*, "Enhanced optical confinement and lasing characteristics of individual urchin-like ZnO microstructures prepared by oxidation of metallic Zn", Nanoscale Research Letters 9, 178 (2014). [DOI]
C.-S. Yeih, H.-X. Ciao, and S.-Y. Tseng, “Shortcut to mode conversion via level crossing in engineered multimode waveguides,” IEEE Photonics Technology Letters 26, 123-126 (2014). [PDF][DOI]
S. Martinez-Garaot, E. Torrontegui, X. Chen, M. Modugno, D. Guery-Odelin, S.-Y. Tseng, and J. G. Muga, “Vibrational mode multiplexing of ultracold atoms,” Physical Review Letters 111, 213001 (2013). [arXiv][DOI]
S.-Y. Tseng and Y.-W. Jhang, “Fast and robust beam coupling in a three waveguide directional coupler,” IEEE Photonics Technology Letters 25, 2478-2481 (2013). [PDF][DOI]
K.-H. Chien, C.-S. Yeih, and S.-Y. Tseng, “Mode conversion/splitting in multimode waveguides based on invariant engineering,” Journal of Lightwave Technology 31, 3387-3394 (2013). [PDF][DOI]
S.-Y. Tseng, “Counterdiabatic mode-evolution based coupled-waveguide devices,” Opt. Express. 21, 21224-21235 (2013). [PDF][DOI]
S.-Y. Tseng and X. Chen, “Engineering of fast mode conversion in multimode waveguides,” Opt. Lett. 37, 5118-5120 (2012). [PDF][DOI]
T.-Y. Lin, F.-C. Hsiao, Y.-W. Jhang, C. Hu, and S.-Y. Tseng, "Mode conversion using optical analogy of shortcut to adiabatic passage in engineered multimode waveguides," Opt. Express 20, 24085-24092 (2012). [PDF][DOI]
H.-C. Hsu, G.-M. Hsu, Y.-s. Lai, Z. C. Feng, S.-Y. Tseng, A. Lundskog, U. Forsberg, E. Janzén, K.-H. Chen, and L.-C. Chen, “Polarized and diameter-dependent Raman scattering from individual aluminum nitride nanowires: The antenna and cavity effects,” Appl. Phys. Lett. 101, 121902 (2012). [DOI]
F.-C. Hsiao, T.-Y. Lin, and S.-Y. Tseng, “Bandwidth Analysis of Waveguide Mode Converters based on Optical Analogy of Stimulated Raman Adiabatic Passage in Engineered Multimode Waveguides,” IEEE Photonics Journal 3, 1198-1205 (2011). [PDF][DOI].
M.-C. Wu, F.-C. Hsiao, and S.-Y. Tseng, “Adiabatic mode conversion in multimode waveguides using chirped computer-generated planar holograms,” IEEE Photonics Technology Letters 23, 807-809 (2011). [PDF][DOI]
S.-Y. Tseng and M.-C. Wu, “Mode conversion/splitting by optical analogy of multistate stimulated Raman adiabatic passage in multimode waveguides,” Journal of Lightwave Technology 28, 3529-3534 (2010). [PDF][DOI]
S.-Y. Tseng and M.-C. Wu, “Adiabatic mode conversion in multimode waveguides using computer-generated planar holograms,” IEEE Photonics Technology Letters 22, 1211-1213 (2010). [PDF][DOI]
M.-C. Wu and S.-Y. Tseng, “Design and simulation of multimode interference based demultiplexers aided by computer-generated planar holograms,” Optics Express 18, 11270-11275 (2010). [PDF][DOI]
S.-Y. Tseng, “Diffraction engineering of multimode waveguides using computer-generated planar holograms,” Optics Express 17, 21465-21471 (2009). [PDF][DOI]
C. Fuentes-Hernandez, G. Ramos-Ortiz, S.-Y. Tseng, M. P. Gaj, and B. Kippelen, “Third-harmonic generation and its applications in optical image processing,” Journal of Materials Chemistry 19, 7394-7401 (2009). [PDF][DOI]
S.-Y. Tseng, “Synthesis of a 4×4 Walsh-Hadamard transformer using long-period waveguide grating arrays,” IEEE Photonics Technology Letters 21, 972-974 (2009). [PDF][DOI]
S.-Y. Tseng, S. K. Choi, and B. Kippelen, “Variable-ratio power splitters using computer-generated planar holograms on multimode interference couplers,” Optics Letters 34, 512-514 (2009). [PDF][DOI]
S.-H. Chi, J. M. Hales, C. Fuentes-Hernandez, S.-Y. Tseng, J.-Y. Cho, S. A. Odom, Q. Zhang, S. Barlow, R. R. Schrock, S. R. Marder, B. Kippelen, J. W. Perry, "Thick optical-quality films of substituted polyacetylenes with large ultrafast third-order nonlinearities and application to image correlation, " Advanced Materials 20, 3199-3203 (2008). [PDF][DOI]
S.-Y. Tseng, C. Fuentes-Hernandez, and B. Kippelen, "Compact and self-aligned all-optical image correlator based on third-harmonic generation, " Optics Letters 32, 2599-2601 (2007). [PDF][DOI]
C. Fuentes-Hernandez, S.-Y. Tseng, D. Owens, and B. Kippelen, "Ultrafast optical image processing through third-harmonic generation in organic materials," Applied Physics Letters 91, 131110-3 (2007). [PDF][DOI]
S.-Y. Tseng, C. Fuentes-Hernandez, D. Owens, and B. Kippelen, "Variable splitting ratio 2X2 MMI couplers using multimode waveguide holograms," Optics Express 15, 9015-9021 (2007). [PDF][DOI]
S.-Y. Tseng, W. Cao, Y. -H. Peng, J. M. Hales, S.-H. Chi, J. W. Perry, S. R. Marder, C. H. Lee, W. N. Herman, and J. Goldhar, "Measurement of complex chi(3) using degenerate four-wave mixing with an imaged 2-D phase grating," Optics Express 14, 8737-8744 (2006). [PDF][DOI]
S.-Y. Tseng, Y. Kim, C. J. K. Richardson, and J. Goldhar, "Implementation of discrete unitary transformations by multimode waveguide holograms," Applied Optics 45, 4864-4972 (2006). [PDF][DOI]
C. J. K. Richardson, S.-Y. Tseng, J. Goldhar, R. J. Runser, and L. B. Mercer, "Difficulties involving dynamic polarization-based impairment measurements using Jones matrices," Journal of the Optical Society of America B 21, 1848-1859 (2004). [PDF][DOI]
S. Y. Tseng, C. Richardson, and J. Goldhar, "Temporal evolution of the polarization state of optical pulses under the effect of polarization-mode dispersion," IEEE Photonics Technology Letters 16, 1206-1208 (2004). [PDF][DOI]
Conference Papers
G.-H. Li, Z.-D. Xie, M.-H. Shih, H.-C. Kuo, C.-H. Wu, S.-Y. Tseng, Y.-J. Chiu, and C. K. Lee, "Enhancing supercontinuum generation via shortcut to adiabaticity coupling for higher order modes in Ta2O5 waveguides," in CLEO 2024, JW2A.6.
J.-H. Chen and S.-Y. Tseng, "Particle swarm optimized silicon polarization beam splitter based on subwavelength grating Waveguide," in OPTIC 2023, Tainan, Taiwan.
Y.-F. Lo, H.-C. Chung, and S.-Y. Tseng, "Adiabaticity engineered silicon polarization independent directional coupler for the O-band," in OPTIC 2023, Tainan, Taiwan
L.-F. Chang, R. Norte, W. J. Westerveld, and S.-Y. Tseng, "Application of adiabaticity map: highly efficient coupling from optical fibers to silicon waveguides by adiabatic mode evolution," Proc. SPIE 12794, Emerging Applications in Silicon Photonics IV, 127940B (2023). [PDF][DOI]
H.-C. Chung, Z.-S. Yang, and S.-Y. Tseng, "Low-loss silicon bent waveguides using various window functions," in OPTIC 2022, Chungli, Taiwan.
B.-C. Wu, H.-C. Chung, and S.-Y. Tseng, "Compact and robust bent axis waveguide coupler with a sign flip of the phase mismatch," in IEEE Photonics Conference, (IEEE, 2022), ThF1.3.
H.-C. Chung and S.-Y. Tseng, "Ultra-broadband silicon polarization independent 3-dB coupler using multi-parameter adiabaticity engineering," in IEEE Photonics Conference, (IEEE, 2022), WP28.
M.-J. Huang and S.-Y. Tseng, "A comparison between tapered and cubically-bent directional couplers," in OPTIC 2021, Kaohsiung Taiwan.
H.-C. Chung, G.-H. Lu, and S.-Y. Tseng, "Broadband silicon polarization splitter-rotator using multi-wavelength adiabaticity engineering," in OPTIC 2021, Kaohsiung, Taiwan.
H.-C. Chung, G.-H. Lu, and S.-Y. Tseng, "Ultra-Broadband Silicon Polarization Splitter-Rotator using Adiabaticity Engineering,” in Frontiers in Optics / Laser Science, (Optica Publishing Group, 2021), JW7A.142.
Y.-L. Wu, C.-H. Wu, G.-X. Lu, and S.-Y. Tseng, "Polarization independent silicon-on-insulator 3-dB couplers using adiabaticity engineering," in OPTIC 2020, Taipei, Taiwan.
S.-Y. Tseng, H.-C. Chung, Y.-L. Wu, G.-X. Lu, C.-H. Chen, and Y.-J. Hung, “Compact and robust silicon 3-dB couplers using adiabaticity engineering,” in OECC 2020, Taipei, Taiwan.
H.-C. Chung, T.-C. Wang, G.-X. Lu, C.-H. Wu, Y.-J. Hung, and S.-Y. Tseng, “Athermal silicon power splitter using shortcuts to adiabaticity,” in OECC 2020, Taipei, Taiwan. [DOI]
C.-H. Liu and S.-Y. Tseng, “Short and broadband mode-division multiplexer using supersymmetric structures and shortcut to adiabaticity,” in OPTIC 2019, Taichung, Taiwan.
H.-C. Chung and S.-Y. Tseng, “High fabrication tolerance and broadband silicon polarization beam splitter by point-symmetric cascaded fast quasiadiabatic couplers,” in OPTIC 2019, Taichung, Taiwan.
H.-C. Chung, J.-Y. Sie, and S.-Y. Tseng, "Robust couplers designed by fast quasiadiabatic elimination," in OSA Advanced Photonics Congress (AP) 2019 (IPR, Networks, NOMA, SPPCom, PVLED), OSA Technical Digest (Optical Society of America, 2019), paper JT4A.4. [Link]
J.-H. Huang, Y-H. Liu, K.-S. Lee, S.-Y. Tseng, C.-C. Wang, C.-C. Wang, and H.-H. Chen, "Adaptation of a Commercially Available Laser Raman Spectrometer for Underwater Chemical Sensing," 2019 IEEE Underwater Technology (UT). [DOI]
H.-C. Chung, Z.-Y. Li, F.-C. Liang, K.-S. Lee, and S.-Y. Tseng, "The fast quasiadiabatic approach to optical waveguide design," Proc. SPIE 11031, Integrated Optics: Design, Devices, Systems, and Applications V, 110310Y (26 April 2019). [PDF][DOI]
H.-C. Chung, Z.-Y. Li, and S.-Y. Tseng, “Ultrashort and Low Insertion Loss SiGe Electroabsortion Modulators using Fast Quasiadiabatic Dynamics,” in OPTIC 2018, Tainan, Taiwan.
H.-C. Chung, J.-Y. Sie, and S.-Y. Tseng, “Ultracompact Silicon Polarization Splitter-Rotator using Fast Quasiadiabatic Dynamics,” in the 23nd Microoptics Conference (MOC), (The Japan Society of Applied Physics, 2018), P-21.
Z.-Y. Li, T.-K. Huang, H.-C. Chung, and S.-Y. Tseng, “Fast Quasiadiabatic 2x2 Broadband 3-dB Couplers on SOI Strip Waveguides,” in Frontiers in Optics / Laser Science, (Optical Society of America, 2018), Washington DC, USA, JTu2A.78.
H.-C. Chung, Z.-Y. Li, K.-S. Lee, and S.-Y. Tseng, “The Fast Quasiadiabatic Approach to Optical Waveguide Design,” in PIERS 2018 in Toyama, Toyama, Japan.
H.-C. Chung and S.-Y. Tseng, “Ultrashort and broadband silicon polarization splitter-rotator using fast quasiadiabatic dynamics,” in Advanced Photonics Congress (Optical Society of America, 2018), Zurich, Switzerland,
H.-C. Chung and S.-Y. Tseng, “Ultracompact silicon polarization splitter-rotator using fast quasiadiabatic dynamics,” in OPTIC 2017, Kaohsiung, Taiwan.
Z.-Y. Li, H.-C. Chung, and S.-Y. Tseng, “Short and broadband 3-dB coupler on SOI rib waveguides using fast quasiadiabatic dynamics,” in OPTIC 2017, Kaohsiung, Taiwan.
Y.-H. Liu, K.-S. Lee, S.-Y. Tseng, C.-C. Wang, C.-C. Wang, and H.-H. Chen, “Development of a laser Raman spectrometer for underwater chemical sensing,” 2017 International Conference on Gas Hydrate in Continental Margins, Taipei, Taiwan.
H.-C. Chung and S.-Y. Tseng, “Robust silicon 3-dB coupling using inverse engineering based optimization,” in the 22nd Microoptics Conference (MOC), (The Japan Society of Applied Physics, 2017), P-93.
H.-C. Chung and S.-Y. Tseng, “Efficient silicon-on-insulator taper using fast quasiadiabatic dynamics,” in Asia Communications and Photonics Conference (ACP) 2017, Guangzhou, China, Su2A. 139.
K.-S. Lee, H.-C. Chung, and S.-Y. Tseng, “Ultra-short and broadband silicon mode (de)multiplexer using fast quasiadiabatic dynamics,” in ICO the 24th Congress of the International Commission for Optics 2017, Tokyo, Japan, Tu2J-07.
C.-H. Shen and S.-Y. Tseng, “Adiabatic three waveguides beam splitter by stimulated Raman adiabatic passage,” in OPTIC 2016, Taipei, Taiwan.
H.-C. Chung and S.-Y. Tseng, “Optimization of adiabaticity in SOI waveguide beamsplitter using shortcuts to adiabaticity,” in OPTIC 2016, Taipei, Taiwan.
H.-C. Chung and S.-Y. Tseng, “Broadband polymer 3-dB coupler using shortcut to adiabaticity based optimization,” in OECC/PS 2016, Niigata, Japan.
S.-Y. Tseng, “Coupled-waveguide devices using shortcuts to adiabaticity,” in the Annual Meeting of PSROC 2016, Kaohsiung, Taiwan.
H.-C. Chung and S.-Y. Tseng, “Robust polymer waveguide beam splitter using shortcuts to adiabaticity,” in OPTIC 2015, Hsinchu, Taiwan.
H.-C. Chung, R.-D. Wen, X. Chen, and S.-Y. Tseng, “Robust waveguide beam splitter using shortcuts to adiabaticity,” in the 20th Microoptics Conference 2015, (The Japan Society of Applied Physics, 2015), H55.
S.-Y. Tseng, “Coupled waveguide devices using shortcuts to adiabaticity,” in 2015 EMN Meeting on Optoelectronics, Beijing China.
C.-P. He and S.-Y. Tseng*, “Robust control of two-level systems by shaped optical pulses,” in the 2nd Optical Manipulation Conference 2015, Yokohama, Japan.
T.-H. Pan and S.-Y. Tseng*, “Design and simulation of mode (de)multiplexers on SOI using asymmetrical directional couplers” in OPTIC 2014, Taichung, Taiwan.
T.-C. Lin, C.-P. Ho, and S.-Y. Tseng*, “Analysis of coupled optical waveguides using shortcuts to adiabaticity,” in OPTIC 2014, Taichung, Taiwan.
S.-Y. Tseng, “Integrated optics devices using shortcuts to adiabaticity,” in Shortcuts to Adiabaticity 2014, (Shanghai University, 2014). (Invited)
Y.-C. Chuang and S.-Y. Tseng*, “Arbitrary ratio three waveguide beam splitter using shortcuts to adiabaticity,” in the 75th JSAP Autumn Meeting 2014, Sapporo, Japan.
C.-P. He and S.-Y. Tseng* “Fast and broadband conversion of light polarization using shortcut to adiabaticity,” in the 1st Optical Manipulation Conference 2014, Yokohama, Japan
Y.-F. Chiu and S.-Y. Tseng* “Design and Simulation of a Counterdiabatic Directional Coupler based on SOI,” in the 9th International Conference on Optics-photonics Design & Fabrication, (Optical Society of Japan, 2014), Tokyo, Japan.
C.-S. Yeih, J.-Z. Chen, H.-X. Cao, and S.-Y. Tseng*, “Mode Conversion by Counterdiabatic Passage in Multimode Waveguides,” in OPTIC 2013, Zhongli, Taiwan.
K.-H. Chien, J.-Z. Chen, H.-X. Cao, and S.-Y. Tseng*, “Arbitrary Mode Splitting in Multimode Waveguides based on Invariant Engineering,” in OPTIC 2013, Zhongli, Taiwan.
Y.-F. Chiu, Y.-W. Jhang, and S.-Y. Tseng*, “Short and Robust Three Waveguides Direction Coupler based on Invariant Engineering,” in OPTIC 2013, Zhongli, Taiwan.
Y.-F. Chiu, Y.-W. Jhang, and S.-Y. Tseng*, “Superadiabatic Directional Couplers,” in OPTIC 2013, Zhongli, Taiwan.
S.-Y. Tseng*, C.-S. Yeih, and K.-H. Chien, “Fast mode splitting in engineered multimode waveguides,” in 2013 Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), Kyoto, Japan.
F.-C. Hsiao, Y.-W. Jhang, C.-S. Yeih, C. Hu, and S.-Y. Tseng*, “Adiabatic Light Passage in Optical Waveguides using Computer-Generated Planar Holograms,” in OPTIC 2012, Taipei, Taiwan.
T.-Y. Lin, F.-C. Hsiao, Y.-W. Jhang, C.-S. Yeih, C. Hu, and S.-Y. Tseng*, “Shortcut to Adiabatic Mode Conversion in Engineered Multimode Waveguides,” in OPTIC 2012, Taipei, Taiwan.
T.-Y. Lin, F.-C. Hsiao, and S.-Y. Tseng, “Adiabaticity analysis of mode conversion using quantum-optical analogy in multimode waveguides,” in the 17th Optoelectronics and Communications Conference, (IEEE 2012), 6E1-4.
F.-C. Hsiao and S.-Y. Tseng, “Landau-Zener analysis and modal power transfer in a step-index multimode waveguide with non-adiabatic crossing of eigenvalues ,” in IPC 2011, C-SA-III7-4.
T.-Y. Lin and S.-Y. Tseng, “Bandwidth analysis of an adiabatic mode converter using computer-generated planar hologram,” in IPC 2011, B-SA-VII8-5.
M.-C. Wu and S.-Y. Tseng, “Mode splitting by optical analogy of fractional stimulated Raman adiabatic passage in multimode waveguides,” in OPT 2010, OPT2-O-027.
C.-H. Lai and S.-Y. Tseng, “Poincare sphere analysis for optimizing all-optical switches based on nonlinear polarization rotation in semiconductor optical amplifiers,” in OPT 2010, OPT2-P-031.
S.-Y. Tseng, “Self-imaging in diffraction engineered multimode waveguides,” in the 7th International Conference on Optics-photonics Design & Fabrication, (Optical Society of Japan, 2010), 20PSa-51.
S.-Y. Tseng, “Optical Walsh-Hadamard transformers by diffraction engineering in long-period waveguide grating arrays,” in OPT 2009, BP021.
S.-Y. Tseng, “Long-period waveguide grating arrays for discrete unitary optical transformations,” in the 15th Microoptics Conference, (The Japan Society of Applied Physics, 2009), J7.
S.-Y. Tseng, S. Choi, and B. Kippelen, “Variable ratio power splitters using computer-generated planar holograms on 2x2 multimode interference couplers,” in Conference on Lasers and Electro-Optics, (Optical Society of America, 2009), CTuBB6.
C. Fuentes-Hernandez, L. A. Padilha, D. Owens, S.-Y. Tseng, S. Webster, J.-Y. Cho, D. J. Hagan, E. W. VanStryland, S. R.Marder, and B. Kippelen, “Linear and nonlinear optical properties of highly transmissive one-dimensional metal-organic photonic bandgap structures,” Proc. SPIE 7049, 70490O (2008).
C. Fuentes-Hernandez, S.-Y. Tseng, S.-H. Chi, J. M. Hales, J. W. Perry, S. R. Marder, B. Kippelen, "Third-harmonic generation in organic thin films as an alternative to degenerate four-wave mixing ultrafast optical image processing," in Conference on Lasers and Electro-Optics, (Optical Society of America, 2008), CFX6.
A. S. Mampazhy, A. Liu, S.-Y. Tseng, C. J. K. Richardson, J. Goldhar, “Coherent pulse injection into a monolithic passively mode-locked laser,” in Conference on Lasers and Electro-Optics, (Optical Society of America, 2008), JWA61.
C. Fuentes-Hernandez, L. A. Padilha, D. Owens, S.-Y. Tseng, S. Webster, J.-Y. Cho, D. J. Hagan, E. W. VanStryland, S. R. Marder, and B. Kippelen, “Nonlinear refraction and absorption in highly transmissive one-dimensional metal-organic photonic bandgap structures,” in Conference on Lasers and Electro-Optics, (Optical Society of America, 2008), CThI6.
C. Fuentes-Hernandez, S.-Y. Tseng, D. Owens, and B. Kippelen, "Ultrafast optical image processing through non-collinear third-harmonic generation in thin organic films," in Frontiers in Optics 2007, the 91th Annual OSA Meeting, PDP-A6 (postdealine).
W. Y. Chen, T. N. Ding, W. Cao, S. Y. Tseng, W. N. Herman, and P. T. Ho, "Optical switching in benzocyclobutene microring lattice," in Frontiers in Optics 2007, the 91th Annual OSA Meeting on CD-ROM (The Optical Society of America, Washington, DC, 2007), JWC53.
S.-Y. Tseng, Y.-H. Peng, W. Cao, Y. Kim, L. Lucas, V. Yun, Y. Leng, C. H. Lee, W. N. Herman, and J. Goldhar, "Measurement of complex chi(3) using DFWM with an imaged 2-D phase grating," in the 232nd American Chemical Society National Meeting 2006, POLY528.
S.-Y. Tseng, W. Cao, L. Lucas, Y. Kim, V. Yun, Y. Leng, C. H. Lee, W. N. Herman, and J. Goldhar, "A technique for measuring complex chi(3) using DFWM with an imaged 2-D phase grating," in Conference on Lasers and Electro-Optics, (Optical Society of America, 2006), CThQ3.
S.-Y. Tseng, Y. Kim, C. J. Richardson, and J. Goldhar, "Optical processor using waveguide holograms in multimode interference (MMI) couplers," in Conference on Lasers and Electro-Optics, (Optical Society of America, 2005), JTuC70.
C. J. K. Richardson, S. Y. Tseng, H. Ereifej, G. Carter, M. Saylors, N. Moulton, and J. Goldhar, "Statistical evaluation of polarization-dependent losses and polarization-mode dispersion in an installed fiber network," in Conference on Lasers and Electro-Optics, (Optical Society of America, 2002), CThU4.
Theses
張力夫, 利用絕熱地圖優化光纖至矽波導模態演化耦合器, 成功大學/理學院/光電科學與工程學系/2023/碩士
詹弘任, 利用粒子群優化演算法設計的矽光子彎曲波導, 成功大學/理學院/光電科學與工程學系/2023/碩士
王欣以, 使用多波長絕熱工程優化之絕緣層覆矽任意分光器, 成功大學/理學院/光電科學與工程學系/2023/碩士
陳瑞鴻, 使用粒子群演算法優化基於亞波長波導結構之SOI偏振分光器, 成功大學/理學院/光電科學與工程學系/2023/碩士
楊再碩, 用於光子積體電路的低損耗彎曲波導, 成功大學/理學院/光電科學與工程學系/2022/碩士
吳炳璁, 基於絕熱捷徑設計相位不匹配翻轉的彎曲波導耦合器, 成功大學/理學院/光電科學與工程學系/2022/碩士
吳佳玲, 逆向設計垂直光柵背側耦合器, 成功大學/理學院/光電科學與工程學系/2022/碩士
林晉豪, 以絕熱捷徑設計兩種不同結構的五氧化二鉭耦合器並討論其高階模態, 成功大學/理學院/光電科學與工程學系/2022/碩士
吳啓弘, 基於絕熱捷徑設計五氧化二鉭高階模態耦合器, 成功大學/理學院/光電科學與工程學系/2021/碩士
何家安, 使用快速類絕熱動態優化絕緣層覆矽亞波長光柵波導3-dB分光器, 成功大學/理學院/光電科學與工程學系/2021/碩士
盧冠勳, 利用絕熱工程設計絕緣層覆矽超寬帶偏振分束-旋轉器, 成功大學/理學院/光電科學與工程學系/2021/碩士
劉昀泓, 反向工程任意分光器在分波多工濾波器中的應用,成功大學/理學院/光電科學與工程學系/2020/碩士
吳以琳, 利用絕熱工程之絕緣層覆矽3-dB偏振獨立分光器, 成功大學/理學院/光電科學與工程學系/2020/碩士
俞志強, 不同形狀的SOI錐狀波導之比較, 成功大學/理學院/光電科學與工程學系/2020/碩士
蔣子涵, 在馬赫-曾德爾濾波器中使用絕熱消跡耦合器的平坦通帶多工(解)復用器, 成功大學/理學院/光電科學與工程學系/2020/碩士
黃敬恆, 藉由絕熱捷徑優化絕熱消跡應用於極化分光器, 成功大學/理學院/光電科學與工程學系/2019/碩士
謝正益, 快速準絕熱消跡波導的任意分光器, 成功大學/理學院/光電科學與工程學系/2019/碩士
梁富傑, 使用絕熱工程優化絕緣層覆矽3-dB偏振無關分光器, 成功大學/理學院/光電科學與工程學系/2019/碩士
鍾泓璟, 使用絕熱捷徑之極短、寬頻以及製程容忍度高的矽光子元件, 成功大學/理學院/光電科學與工程學系/2018/博士
李忠穎,使用快速準絕熱法優化絕緣層覆矽3-dB分光與垂直耦合器, 成功大學/理學院/光電科學與工程學系/2018/碩士
黃桐科, 多模態固定損耗椎狀波導設計與模擬, 成功大學/理學院/光電科學與工程學系/2018/碩士
陳群翰, 基於準絕熱逆向工程之無線能量傳輸, 成功大學/理學院/光電科學與工程學系/2018/碩士
劉彥煌, 高精度量子穩定疊加態之準絕熱逆向調制, 成功大學/理學院/光電科學與工程學系/2017/碩士
李坤陞, 線性與快速準絕熱動態之矽光子非對稱型波導分模多工器結構比較與分析, 成功大學/理學院/光電科學與工程學系/2017/碩士
郭筱玟, 以SOI為基底的2x2 3dB耦合器之比較, 成功大學/理學院/光電科學與工程學系/2017/碩士
林智中, 量子絕熱捷徑之比較與分析, 成功大學/理學院/光電科學與工程學系/2016/碩士
黃秉樺, 基於微擾理論之絕緣層覆矽濾波器設計與模擬, 成功大學/理學院/光電科學與工程學系/2016/碩士
何誠圃, 以絕熱捷徑理論達成最佳化之絕熱過程, 成功大學/理學院/光電科學與工程學系/2016/碩士
潘梓瑄, 基於絕熱捷徑理論之絕緣層覆矽分模分(多)工器設計與模擬, 成功大學/理學院/光電科學與工程學系/2015/碩士
古寶文, 水下小型拉曼光譜儀的研究, 成功大學/理學院/光電科學與工程學系/2015/碩士
蔡松蒝, 藉由絕熱捷徑之短且具容忍度的聚合物多模分(多)工器, 成功大學/理學院/光電科學與工程學系/2015/碩士
陳緯璇, 藉由低同調干涉系統量測光纖之剖面折射率, 成功大學/理學院/光電科學與工程學系/2015/碩士
陳驥之, 基於絕熱轉換捷徑理論之光纖模態轉換器用於光纖高階模色散補償系統, 成功大學/理學院/光電科學與工程學系/2014/碩士
邱英峰, 絕緣層覆矽超絕熱方向耦合器之設計與模擬, 成功大學/理學院/光電科學與工程學系/2014/碩士
莊于臻, 以不變量原理達成三波導分光/耦合器, 成功大學/理學院/光電科學與工程學系/2014/碩士
林子堯, 光纖光柵模態轉換元件之分析, 成功大學/理學院/光電科學與工程學系/2013/碩士
簡楷訓, 以Lewis–Riesenfeld不變量理論達成多模波導模態轉換之捷徑, 成功大學/理學院/光電科學與工程學系/2013碩士
葉啟祥, 多模波導絕熱模態轉換之捷徑分析, 成功大學/理學院/光電科學與工程學系/2013/碩士
陳建安, 以雪崩光電二極體之非線性效應進行光學自相關干涉,成功大學/理學院/光電科學與工程學系/2012/碩士/
林宗儀, 多模波導絕熱模態轉換與頻寬分析, 成功大學/理學院/光電科學與工程學系/2012/碩士
蕭甫宸, 以Landau-Zener法分析波導模態轉換器於非絕熱轉換之頻寬特性, 成功大學/理學院/光電科學與工程學系/2012/碩士
董博翔, 多模光波導自我成像特性之研究, 成功大學/理學院/光電科學與工程研究所/2011/碩士
S.-Y. Tseng, “Development of linear and nonlinear components for integrated optical signal processing,” Ph. D. Thesis, Department of Electrical Engineering and Computer Science, University of Maryland, 2006. [Amazon.com]
S.-Y. Tseng, “Polarization mode dispersion characterization by time-resolved Stokes parameters of optical pulses,” M. S. Thesis, Department of Electrical Engineering and Computer Science, University of Maryland, 2002.