Naoya Tate | Last modified date:2024.03.04 |
Associate Professor /
Integrated Electronics /
Department of Electronics /
Faculty of Information Science and Electrical Engineering
Presentations
1. | H. Du,T. Kadowaki,N. Tate,T. Kawazoe,Y. Oki,M. Ohtsu,K. Hayashi, Novel magneto-optical effect exhibited by Al-doped 4H-SiC, The 13th Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2023), 2023.12. |
2. | N. Tate, Sequential one-dimensional spatial processing based on quantum-dot reservoir computing, The 13th Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2023), 2023.12. |
3. | N. Tate,S. Yamaguchi,S. Shimomura,T. Nishimura,J. Kozuka,Y. Ogura,J. Tanida, Performance analysis of spatio-temporal optical reservoir models based on quantum dot network structural features, Information Photonics 2023 (IP'23), 2023.09. |
4. | 山口誠矢,下村優,西村隆宏,小塚淳,竪直也,小倉裕介,谷田純, Dependency of quantum dot distribution on the processing performance as optical reservoirs, 2023年度(第76回)電気・情報関係学会九州支部連合大会, 2023.09. |
5. | H. Takeda, A. Abazi, A. Eich, Y. Tomishige, K. Hiramoto, J. Chen, Y. Mikami, N. Tate, Y. Oki, C. Schuck, H. Yoshioka, Ultrasmall Submicrometer Sized Periodic Deposition on the Silicon Nitride Microring with Nanodispensing Technique, CLEO/Europe-EQEC 2023, 2023.06. |
6. | J. Chen, A. Nasir, A. Abazi, A. Eich, Y. Tomishige, H. Takeda, Y. Mikami, N. Tate, Y. Oki, C. Schuck, H. Yoshioka, Active Clad Microring Laser with Diffraction Grating for Mutual Coupling of Radial Direction Mode and WGM, CLEO/Europe-EQEC 2023, 2023.06. |
7. | H. Du, H. Takeda, T. Kadowaki, N. Tate, T. Kawazoe, Y. Oki, M. Ohtsu, K. Hayashi, Revelation and analysis of optical phase delay exhibited by Al-doped 4H-SiC due to current induction, CLEO/Europe-EQEC 2023, 2023.06. |
8. | N. Tate, Recent research activities on optical nano-artifact metrics, The 12th Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2022), 2022.12. |
9. | A. Nakamura, S. Yamaguchi, S. Shimomura, T. Nishimura, J. Kozuka, N. Tate, Y. Ogura, J. Tanida, Fundamental implementation of spatio-parallel optical reservoir computing, The 12th Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2022), 2022.12. |
10. | K. Hiramoto, N. Obata, A. Eich, Y. Mikami, A. Nasir, N. Tate, Y. Oki, C. Schuck, H. Yoshioka, Direct printing of organic micro-disk cavity lasers on waveguides in optical integrated circuits, CLEO Pacific-Rim 2022, 2022.08. |
11. | M. Tanaka, J. Yu, M. Nakagawa, N. Tate, M. Hashimoto, Investigating Small Device Implementation of FRET-based Optical Reservoir Computing, The 65th IEEE International Midwest Symposium on Circuits and Systems (MWSCAS 2022), 2022.08. |
12. | Sun-ichi Sakai, Akihiro Nakamura, Naoya Tate, Suguru Shimomura, Takahiro Nishimura, Jun Kozuka, Yusuke Ogura, and Jun Tanida, Quantum Dot Network-Based Reservoir Computing Using Spatio-Temporal Fluorescence Outputs, Information Photonics 2022 (IP2022), 2022.04. |
13. | Sun-ichi Sakai, Akihiro Nakamura, Suguru Shimomura, Takahiro Nishimura, Jun Kozuka, Naoya Tate, Yusuke Ogura, and Jun Tanida, Experimental machine learning for XOR problem using spatio-temporal optical output of quantum dot network, The 11th Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2021), 2021.12. |
14. | Naoya Tate, Experimental demonstration of physical machine learning based on spatiotemporal fluorescence of a quantum dot network, The 11th Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2021), 2021.12. |
15. | Sun-ichi Sakai, Akihiro Nakamura, Suguru Shimomura, Takahiro Nishimura, Jun Kozuka, Naoya Tate, Yusuke Ogura, and Jun Tanida, Verification of spatiotemporal optical property of quantum dot network by regioselective photon-counting experiment, Photonics in Switching and Computing (PSC), 2021.09. |
16. | Suguru Shimomura, Takahiro Nishimura, Jun Kozuka, Naoya Tate, Sun-ichi Sakai, Yusuke Ogura, and Jun Tanida, Non-linearly responsive neurons using a quantum-dot network for neuromorphic computing, Photonics in Switching and Computing (PSC), 2021.09. |
17. | Yingchuan Liu, Aoi Sakamoto, and Naoya Tate, Practical nano-artifact metrics based on lower-magnification of interference image retrieval, Photonics in Switching and Computing (PSC), 2021.09. |
18. | Naoya Tate, Yuki Miyata, Suguru Shimomura, Takahiro Nishimura, Jun Kozuka, Yusuke Ogura, and Jun Tanida, Echo state property of a quantum-dot network for nano-photonic reservoir computing, The 12th International Conference on Optics-photonics Design & Fabrication (ODF'20), 2021.06. |
19. | Naoya Tate, Implementation of nano-photonic reservoir computing based on quantum dot network, The 10th Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2020), 2020.12. |
20. | Yuki Miyata, Shun-ichi Sakai, Suguru Shimomura, Takahiro Nishimura, Naoya Tate, Yusuke Ogura, and Jun Tanida, Basic experimental verification of spatially parallel pulsed-I/O optical reservoir computing, Information Photonics 2020 (IP'20), 2020.09. |
21. | Suguru Shimomura, Takahiro Nishimura, Jun Kozuka, Yuki Miyata, Shun-ichi Sakai, N. Tate, Yusuke Ogura, and Jun Tanida, Temporal signal generation using FRET-based quantum dot network for optical reservoir computing, Information Photonics 2020 (IP'20), 2020.09. |
22. | Naoya Tate, Shun-ichi Sakai, and Tadashi Kawazoe, Characteristic nano-scale behavior of optical near-field interactions for nanooptical metrics, Information Photonics 2020 (IP'20), 2020.09. |
23. | Takuro Ohteki, Yuya Mikami, Naoya Tate, and Yuji Oki, Security performance of nano opt metric system based on near field optical interaction, The 9th Korea-Japan Workshop on Digital Holography and Information Photonics (DHIP2019), 2019.12. |
24. | Naoya Tate, Security performance of nano artifact metrics based on customized white light interferometric system, The 9th Korea-Japan Workshop on Digital Holography and Information Photonics (DHIP2019), 2019.12. |
25. | Liu Yingchuan, Kohei Kobayashi, Naoya Tate, and Yuji Oki, Evaluation of original nano-artifact images obtained by a simplified optical equipment based on experimentally calculated FMR/FNMR, The 4th Asian Applied Physics Conference (Asian-APC), 2019.11. |
26. | Jun Tanida, Suguru Shimomura, Takahiro Nishimura, Yuki Miyata, Naoya Tate, and Yusuke Ogura, A Quantum Dot Reservoir Based on Förster Resonance Energy Transfer for Optical Reservoir Computing, The 13th Japan-Finland Joint Symposium on Optics in Engineering (OIE 2019), 2019.08. |
27. | Naoya Tate, Yuki Miyata, Suguru Shimomura, Takahiro Nishimura, Yusuke Ogura, and Jun Tanida, Spatiotemporal optical specification of quantum-dot network for optical reservoir computing, Unconventional Computation and Natural Computation 2019 (UCNC 2019), 2019.06. |
28. | Danilo Vasconcellos Vargas, Hiroaki Yoshioka, Daisuke Nakamura, Takatsugu Ono, Naoya Tate, Towards Evolutionary-based Classifiers Implemented with an Optical Fluorescent Voxels System, Information Photonics 2019 (IP '19), 2019.04. |
29. | Suguru Shimomura, Takahiro Nishimura, Yuki Miyata, Naoya Tate, Yusuke Ogura, and Jun Tanida, Energy transfer in quantum-dot network for optical reservoir computing, Information Photonics 2019 (IP '19), 2019.04. |
30. | Naoya Tate, Naoki Yoshida, Yosuke Ueba, Shumpei Nishio, Yasuyuki Ohyagi, Morihisa Hoga, Makoto Naruse, and Tsutomu Matsumoto, Nanoscale artifact metrics based on application of interferometric measurement, The 8th Korea-Japan Workshop on Digital Holography and Information Photonics (DHIP2018), 2018.12. |
31. | Katsuma Shimizu, Yosuke Ueba, Mitsuru Kitamura, Yasuyuki Ohyagi, Morihisa Hoga, Naoya Tate, Makoto Naruse, Tsutomu Matsumoto, Seiya Kasai, Study on electrical discrimination of 2D random nanostructures embedded in a Si MOSFET, 31st International Microprocesses and Nanotechnology Conference (MNC 2018), 2018.11. |
32. | Naoya Tate, Yuki Miyata, Tadashi Kawazoe, Emission enhancement of self-coupled quantum dots and its applications, International Symposium on Imaging, Sensing, and Optical Memory 2018 (ISOM'18), 2018.10. |
33. | Naoya Tate, Tadashi Kawazoe, High-efficiency wavelength conversion material based on nano-scale optical near-field interactions, 5th Japan-Korea Joint Symposium on Advanced Solar Cells 2018 (2nd International Symposium on Energy Research and Application), 2018.02. |
34. | Naoya Tate, Nanoscale character extraction for nano-optical metric system, The 7th Korea-Japan Workshop on Digital Holography and Information Photonics (DHIP2017), 2017.12. |
35. | Naoya Tate, Nanophotonics-based optical energy conversion for solar cell applications, 4th Japan-Korea Joint Symposium on Advance Solar Cells 2017, 2017.02. |
36. | Naoya Tate, High-yield optical energy conversion based on nanophotonic droplets, EMN Meeting on Droplets 2016, 2016.05, [URL]. |
37. | Naoya Tate, Tadashi Kawazoe, Shunsuke Nakashima, Wataru Nomura, Motoichi Ohtsu, Speckle reduction by using transmissive ZnO device based on dressed-photon-assisted optical modulation, The 22nd International Display Workshops, 2015.12, [URL], We demonstrated large optical modulation using zinc oxide single crystal doped with nitrogen ions, which was annealed by a dressed-photon–assisted annealing method. The device, having a thin, transmissive structure, was used as a key component of a novel. |
38. | Naoya Tate, Nanophotonic Droplets: novel materials for high-yield optical energy conversion via dressed-photon-phonon states, The 22nd International Display Workshops, 2015.12, [URL]. |
39. | Tadashi Kawazoe, Naoya Tate, Motoichi Ohtsu, SiC magneto-optical current-transformer applicable to a polarization rotator using dressed photons, The 22nd International Display Workshops, 2015.12, [URL]. |
40. | Naoya Tate, Tadashi Kawazoe, Shunsuke Nakashima, Wataru Nomura, Motoichi Ohtsu, Recent progress in dressed-photon-assisted electro-optical modulation, The 5th Korea-Japan Workshop on Digital Holography and Information Photonics, 2015.09. |
41. | Ryuji Hirayama, Atsushi Shiraki, Makoto Naruse, Hirotaka Nakayama, Naoya Tate, Takashi Kakue, Tomoyoshi Shimobaba, Tomoyoshi Ito, Optically Controlled Quantum-Dot-Based Volumetric Display Exhibiting Multiple Patterns, The JSAP-OSA Joint Symposia 2015, 2015.09. |
42. | Naoya Tate, Makoto Naruse, Tsutomu Matsumoto, Morihisa Hoga, Yasuyuki Ohyagi, Shumpei Nishio, Motoichi Ohtsu, Non-scanning optical near-field microscopy for nanophotonic security, The 10th Asia-Pacific Conference on Near-field Optics (APNFO10), 2015.07. |
43. | Wataru Nomura, Takashi Yatsui, Tadashi Kawazoe, Naoya Tate, Motoichi Ohtsu, High-speed flattening of a composite crystallized glass material by dressed-photon-phonon etching, The 10th Asia-Pacific Conference on Near-field Optics (APNFO10), 2015.07. |
44. | Naoya Tate, Nanophotonic Droplets: novel characteristics of their mechanism based on optical near-field interactions, EMN Meeting on Droplets 2015, 2015.05. |
45. | Naoya Tate, Tadashi Kawazoe, Motoichi Ohtsu, Giant-magnetooptic light modulator using p–n homojunction-structured ZnO crystal, The 4th Korea-Japan Workshop on Digital Holography and Information Photonics (DHIP2014), 2014.12, [URL], We experimentally demonstrated large optical phase modulation using a p–n homojunction-structured zinc oxide single crystal. This device was fabricated using a method that we have developed, what we call dressed-photon-assisted annealing. Our device exhibited quantitatively superior performance in several applications, such as optical path switching and speckle reduction.. |
46. | Naoya Tate, Tadashi Kawazoe, Motoichi Ohtsu, Speckle reduction by current-induced magneto-optical effect using p-type ZnO device, The 21st International Display Workshops (IDW'14), 2014.12, [URL], We experimentally demonstrated giant optical phase modulation using a p-type ZnO device fabricated using a technique that we developed. We achieved a sufficient reduction in the speckle noise of laser light by utilizing this effect to decrease the contrast of time-averaged speckle patterns.. |
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