Publication

Publication List

Journal

  1. Yu-Wei Lu, Yao-Lun Liu, Chih-Yun Liao, Chun-Hsien Liu, Chia-Yi Chu, Meng-Hsuan Lu, Tien Ning Chang, Jenq-Shinn Wu, Jau Yang Wu, Chia-Ming Tsai, and Sheng-Di Lin, “Self-Monitoring Temperature Distribution of Single-Photon Avalanche Diode Array “, Accpted by IEEE Sensors Journal . (2024 Oct.)
  2. C. E. Chen, S. M. Huang, T. J. Wang, M. C. Hsu, K. C. Huang, J. Y. Wu and C. H. Wu, “ High temperature tolerant Ge-on-Si single photon avalanche diode at the communication wavelength,”  IEEE Electron Device Letters. (2024, Jun).
  3. Kuan-Wei Hu, Chih-Hsien Cheng, Atsushi Matsumoto, Kouichi Akahane, Jau-Yang Wu, Yuh-Renn Wu, and Gong-Ru Lin, “Novel single-photon differential phase-shift keying with asymmetric high-bit-rate coding and low-bit-rate gated receiving algorithm” IEEE Journal of Lightwave Technology (Sep. 2024).
  4. Jau Yang Wu* and Chun-Hsien Liu,”Designing a Sub-20V Breakdown Voltage SPAD with Standard CMOS Technology and n/p-well Structure”IEEE Photonics Journal ( Feb 2024)
  5. Te Hua Liu, Hao Tien Cheng, Jau Yang Wu, Chao Hsin Wu,”Achieving ns-level pulsed operation of up to 6.27 W with a 1.55 µm BH-DFB laser for LiDAR applications”Optical Letter (May 2023)
  6. Y. L. Liu, C. H. Liu, C. H. Tsai, C. F. Shih, J. Y. Wu*, C. M. Tsai, and S. D. Lin*, “Theoretical Calculation and Demonstration of High Radiometric Temperature Detection Using A 64 × 128 Pixel SPAD Image Array,” in IEEE Transactions on Instrumentation and Measurement, vol. 72, pp. 1-8, 2023
  7. J. Y. Wu*, and C. H. Liu,”Design and characterization of n/p-well CMOS SPAD with low dark count rate and high efficiency”, IEEE Transactions on Electron Devices (Sep. 2022).
  8. H. C. Tsai, C. H. Liu, S. D. Lin, C. M. Tsai, and J. Y. Wu*, “CMOS SPAD imager array for wide radiation temperature sensing and thermal imaging”, IEEE Sensors Journal (Sep. 2022).
  9. L. D. Huang, J. Y. Wu, J. P. Wang, C. M. Tsai, Y. H. Huang, D. R. Wu, and S. D. Lin,  “Single-photon avalanche diodes in 0.18-μm high-voltage CMOS technology”,Opt. Exp. (2017)
  10. B. W. Tzou, J. Y. Wu, Y. S. Lee, and S. D. Lin, “A new method to evaluate afterpulsing probability in single-photon avalanche diodes”, Opt. Lett. (2015)
  11. P. H. Chang, C. M. Tsai, J. Y. Wu, S. D. Lin, and M. C. Kuo, “Constant Excess Bias Control for Single-Photon Avalanche Diode Using Real-Time Breakdown Monitoring, “ IEEE Elec. Dev. Lett. (2015)
  12. H. W. Liu, F. C. Lin, S. W. Lin, J. Y. Wu, B. T. Chou, K. J. Lai, S. D. Lin, and J. S. Huang, “Single-Crystalline Aluminum Nanostructures on a Semiconducting GaAs Substrate for Ultraviolet to Near-Infrared Plasmonics,” ACS Nano, (2015)
  13. J. Y. Wu*, P. K. Lu, Y. J. Hsiao, and S. D. Lin, “Radiometric temperature measurement with Si and InGaAs single-photon avalanche photodiode”, Opt. Lett. (2014)
  14. J. Y. Wu*, P. K. Lu, and S. D. Lin, “Two-dimensional photo-mapping on CMOS single-photon avalanche diodes,” Opt. Exp. (2014)
  15. S. K. Su, L. C. Li, Y. W. Suen, J. Y. Wu, H. R. Kuo, Y. T. Sung, C. P. Lee, and O. Voskoboynikov, “Low temperature and high magnetic field spectroscopic ellipsometry system”, Rev. Sci. Instrum. (2014)
  16. S. T. Lo, K. Y. Chen, S. D. Lin, J. Y. Wu, T. L. Lin, M. R. Yeh, T. M. Chen, C. T. Liang, “Controllable disorder in a hybrid nanoelectronic system: realization of a superconducting diode”, Scientific. Report. (2013)
  17. S. W. Lin, J. Y. Wu, S. D. Lin, M. C. Lo, M. H. Lin, and C. T. Liang, “Characterization of single-crystalline aluminum thin film on (100) GaAs substrate” Jap. Jour. Appl. Phys. (2013)
  18. V. T. Dai, S. D. Lin, S. W. Lin, J. Y. Wu, L. C. Li, and C. P. Lee “Lateral two-dimensional p-i-n diode in a completely undoped GaAs/AlGaAs quantum well”, Jap. Jour. Appl. Phys. (2013)
  19. F. Z. Hsu, J. Y. Wu, and S. D. Lin “Low-noise single-photon avalanche diodes in 0.25um high-voltage CMOS technology”, Opt. Lett. (2013)
  20. C.T. Liang, M.R. Yeh, S. D. Lin, S. W. Lin, J. Y. Wu, T. L. Lin, and K. Y. Chen, “Superconductivity in an Aluminum Film Grown by Molecular Beam Epitaxy”, CHINESE JOURNAL OF PHYSICS (2012)
  21. S. T. Lo, C. Chuang, S. D. Lin, K. Y. Chen, C. T. Liang, S. W. Lin, J. Y. Wu, M. R. Yeh, “Magnetotransport in an aluminum thin film on a GaAs substrate grown by molecular beam epitaxy”, Nano. Res. Lett. (2011)
  22. D. S. Luo, L. H. Lin, Y. C. Su, Y. T. Wang, Z. F. Peng, S. T. Lo, K. Y. Chen, Y. H. Chang, J. Y. Wu, Y. Lin, S. D. Lin, J. C. Chen, C. F. Huang, C.T. Liang, “A delta-doped quantum well system with additional modulation doping”, Nano. Res. Lett. (2011)
  23.  S.T. Lo, K.Y. Chen, Y.C. Su, C.T. Liang, Y. H. Chang, G.H. Kim, J.Y. Wu, S.D. Lin “Crossover from negative to positive magnetoresistance in a Si delta-doped GaAs single quantum well”, Solid State Commun. (2010).
  24.  K. Y. Chen, C. T. Liang, N. Aoki, Y. Ochiai, K. A. Cheng, Li. H. Lin, C. F. Huang, Y. R. Li, Y. S. Tseng, C. K. Yang, P. T. Lin, J. Y. Wu and S. D. Lin, “Probing Insulator-quantum Hall Transitions by Current Heating”, Jour.of the Korean Phys. Soci., (2009)
  25. K. Y. Chen, C. K. Yang, C. T. Liang, N. Aoki, Y. Ochiai, Y. Ujiie, K. A. Cheng, Li.H. Lin, C. F. Huang, Y.R. Li, Y. S. Tseng, P.T. Lin, J.Y. Wu and S.D. Lin “Enhanced phase relaxation in a hybrid ferromagnet / semiconductor system”, Jour.of the Korean Phys. Soci., (2009)
  26. K. Y. Chen, Y. H. Chang, C. T. Liang, N. Aoki, Y. Ochiai, C. F. Huang, L. H. Lin, K. A. Cheng, H. H. Cheng, H. H. Lin, J. Y. Wu and S. D. Lin, “Probing Landau quantization with the presence of insulator-quantum Hall transition in a GaAs two-dimensional electron system”, J. Phys. Condens. Mat. (2008)
  27.  C. T. Liang, Y. S. Tseng, J. Y. Wu, S. D. Lin, C. K. Yang, “Huge positive magnetoresistance in a gated AlGaAs/GaAs high electron mobility transistor structure at high temperatures”, Appl. Phys. Lett. (2008)

Conference

  1. Tzu-Yun Huang, Chun-Hsien Liu, Meng-Hsuan Lu, Jau Yang Wu, and Sheng-Di Lin,”Scintillator-free Electron Detection and Counting using Single-Photon Avalanche Diodes”, 2024IEDM
  2. C. E. Chen, J. Y. Wu and C. H. Wu, “Structural Design of High-Temperature Operable Ge-on-Si Single-Photon Avalanche Photodiode at Wavelengths 1310 nm”, 2024 SSDM
  3. M. H. Lu, C. H. Liu, C. H. Chen, H. K. Yu, J. Y. Wu*and S. D. Lin, “High Timing Resolution Proton Irradiation Solid State Detector with CMOS Single Photon Avalanche Diodes,” 2024 IEDMS & SNDCT, Taiwan (2024, Aug.)
  4. Jau Yang Wu*, Yu Wei Lu, Yao-Lun Liu, Tien-Ning Chang, Chun-Hsien Liu,” Analysis of Temperature-Related Timing Jitter Factors in CMOS Single Photon Avalanche Detectors,” 1st International Conference on AI Sensors & The 10th International Symposium on Sensor Science
  5. You-Cheng Lin , Jau-Yang Wu*, Gong-Ru Lin**,”High Speed and Low Dark Count Room Temperature Operable InGaAs/InP Single Photon Avalanche Photodiode” CLEO-PR 2024
  6. Y. L. Liu , M. H. Lu , C. H. Liu, Y. H. Wu , S. D. Lin , C. M. Tsai , J. C. Hsu , Y. C. Syu , and J. Y. Wu, ”Toward a Photon Counting Detector for X-ray Imaging by Direct Deposition of Scintillator on 32×32 CMOS SPAD Array,” 2023 IISW, UK
  7. Y. L. Liu, C. H. Tsai, C. F. Shih, C. H. Liu, J. Y. Wu, C. M. Tsai, and S. D. Lin, “Wide-range Si-based non-contact temperature sensor using single-photon avalanche diodes,” 2022 SSDM, Japan, Sep. 2022
  8. H. C. Tsai, C. H. Liu, S. D. Lin, C. M. Tsai, and J. Y. Wu*, “Wide Temperature Range and High Thermal Sensitivity Radiometer Image Sensor Using CMOS SPAD Array,” 2022 VLSI-TSA, Taiwan, April 2022
  9. H. W. Liu, F. C. Lin, S. W. Lin, J. Y. Wu, S. D. Lin, and J. S. Huang, “Resonant and Photoluminescence Properties of Single-crystalline Aluminum Nanostructures on Semiconducting GaAs Substrate for Ultra-Violet Plasmonic,” International Topical Meeting on Nanophotonics and Metamaterials, Austria (2015)
  10. J. Y. Wu, and S. D. Lin, “TCAD analysis of electric field distribution in single photon avalanche photodiode on 0.25 μm high voltage CMOS technology,” OMN2014, UK (2014)
  11. J. Y. Wu, S. C. Li, F. Z. Hsu, and S. D. Lin, “Two-dimensional mapping of photon counts in low-noise single-photon avalanche diodes, ”2013 IISW, USA (2013)
  12. S. T. Lo, C. Chuang, S. D. Lin, K. Y. Chen, C.T. Liang, S. W. Lin, J. Y. Wu, and M. R. Yeh, “Magnetotransport in an aluminum nanofilm on GaAs grown by molecular beam epitaxy,” International Conference on the Application of High Magnetic Fields in Semiconductor Physics and Nanotechnology, Japan (2010)
  13. D. S. Luo, L. H. Lin, Y. C. Su, Y. T. Wang, Z. F. Peng, S. T. Lo, K. Y. Chen, Y. H. Chang, J. Y. Wu, Y. P. Lin, S. D. Lin, J. C. Chen, C. F. Huang, and C. T. Liang, “Magnetotransport in a delta-doped GaAs single quantum well with additional modulation doping,” International Conference on the Application of High Magnetic Fields in Semiconductor Physics and Nanotechnology, Japan (2010)
  14. S. K. Su, L. C. Li, Y. W. Suen, J. Y. Wu, H. R. Kuo, Y. T. Sung, and C. P. Lee, “Ellipsometer system for low temperature and high magnetic field,” International Conference on the Application of High Magnetic Fields in Semiconductor Physics and Nanotechnology, Japan (2010)
  15. S. T. Lo, K. Y. Chen, Y. C. Su, C. T. Liang, K. Y. Chen, G. H. Kim, J. Y. Wu, and S. D. Lin, “Crossover from negative magnetoresistance to positive magnetoresistance in a Si delta-doped GaAs single quantum well device,” International Conference on the Physics of Semiconductor (2010)
  16. T. Kramer, E. J. Heller, R. E. Parrott, C. T. Liang, C. F. Huang, K. Y. Chen, L. H. Lin, J. Y. Wu, and S. D. Lin, “The Quantum Hall Effect Revisited,” American Physical Society, USA (2009)
  17. K. Y. Chen, C. T. Liang, N. Aoki, Y. Ochiai, K.A. Cheng, L. H. Lin, C. F. Huang, Y. R. Li, Y. S. Tseng, C. K. Yang, P. T. Lin, J. Y. Wu, and S. D. Lin, “Probing current and temperature effects on the direct insulator-quantum Hall transition,” American Physical Society, USA (2009)
  18. K. Y. Chen, Y. H. Chang, C. T. Liang, N. Aoki, Y. Ochiai, C. F. Huang, L. H. Lin, K.A. Cheng, H. H. Cheng, H. H. Lin, J. Y. Wu, and S. D. Lin, “Probing insulator-quantum Hall transitions near the onset of Landau quantization in GaAs/AlGaAs heterostructures,” American Physical Society, USA (2008)

Patent:

1. C.M. Tsai, C.W. Lai, J.Y. Wu, “Ranging device and method thereof”, 美國專利,2019,證書編:US20190178995