2016

[1] M. De Silva, S. Ishikawa, T. Kikkawa, and S-I. Kuroki, “Low resistance ohmic contact formation on 4H-SiC c-face with NbNi silicidation using nano-second laser annealing,” Mat. Sci. Forum, 858, pp549-552, 2016.

[2] H. Nagatsuma, S-I. Kuroki, M. De Silva, S. Ishikawa, T. Maeda, H. Sezaki, T. Kikkawa, M. Östling, and C.-M. Zetterling, “4H-SiC nMOSFETs with As-doped S/D and NbNi Silicide ohmic contacts,” Mat. Sci. Forum, 858, pp573-576, 2016.

[3] S-I. Kuroki, H. Nagatsuma, M. De Silva, S. Ishikawa, T. Maeda, H. Sezaki, T. Kikkawa, T. Makino, T. Ohshima, M. Östling, and C.-M. Zetterling, “Characterization of 4H-SiC nMOSFETs in Harsh Environments, High-Temperature and High Gamma-Ray Radiation,” Mat. Sci. Forum, 858, pp864-867, 2016.

[4] Y. Furubayashi, T Tanehira, K Yonemori, N Seo, and S-I. Kuroki, “3D Integration of Si-based Peltier device onto 4H-SiC power device,” Mat. Sci. Forum, 858, pp1107-1111, 2016.

[5] M. De Silva, T. Maeda, S. Ishikawa, H. Sezaki, T. Miyazaki, T. Kikkawa, and S-I. Kuroki, “Char-acterization of Grapho-Silicidation on n+ 4H-SiC C-Face for Back Side Ohmic Contacts of Power Devices,” ECS J. Solid State Sci. Technol., 5 (9) P457-P460, 2016.

[6] M. De Silva, S. Ishikawa, T. Miyazaki, T. Kikkawa, and S-I. Kuroki, “Formation of amorphous alloys on 4H-SiC with NbNi film using pulsed-laser annealing,” Appl. Phys. Lett. 109, pp. 012101-1 – 012101-5, 2016.

[7] T. T. Nguyen, M. Hiraiwa, T. Hirata and S-I. Kuroki, “Characterization of (100)-Dominantly Ori-ented Poly-Si Thin Film Transistors using Multi-Line Beam Continuous-Wave Laser Lateral Crys-tallization,” ECS Transactions, 75 (10), pp. 49-54, 2016.

[8] S. S. Suvanam, S-I. Kuroki, L. Lanni, R. Hadayati, T. Ohshima, T. Makino, A. Hallen, C.-M. Zet-terling, “High Gamma Ray Tolerance for 4H-SiC Bipolar Circuits,” IEEE Tran. Nucl. Sci., 64, pp. 852-858, 2017.

[9] Y. Furubayashi, T. Tanehira, K. Yonemori, N. Seo, and S-I. Kuroki, “Transient observation of Peltier effect for PtSix-coated n-type silicon; cooler for 4H-SiC-based power devices,” ECS J. Solid State Sci. Technol. 6 (3), N3089-N3094, 2017.

[10] S-I. Kuroki, H. Nagatsuma, T. Kurose, M. De Silva, S. Ishikawa, T. Maeda, H. Sezaki, T. Kikkawa, T. Makino, T. Ohshima, M. Östling, and C.-M. Zetterling, “4H-SiC MOSFETs and Logic Inverters for Radiation-Hardened Electronics,” International Workshop on Radiation Resistant Sensors and Related Technologies for Nuclear Power Plant Decommissioning (R2SRT2016), Iwaki, Fukushima, pp. 36-37, 2016 (Invited).

[11] T. T. Nguyen, M. Hiraiwa, T. Hirata, and S-I. Kuroki, “Ultrahigh-Performance Poly-Si Thin Film Transistor Using Multi-Line Beam Continuous-Wave Laser Lateral Crystallization,” The proceed-ings of The 23rd International Workshop on Active-Matrix Flatpanel Displays and Devices (AM-FPD16), 4-3, pp277-279, 2016.

[12] S.-I. Kuroki, H. Nagatsuma, T. Kurose, S. Ishikawa, T. Maeda, H. Sezaki, T. Kikkawa, T. Makino, T. Ohshima, M. Östling, and C.-M. Zetterling, “4H-SiC Pseudo-CMOS Logic Inverters for Harsh Environment Electronics,” 11th European Conference on Silicon Carbide and Related Materials (ECSCRM2016), Halkidiki, Greece, WeP-27, pp. 537-538, 2016.

[13] K. Muraoka, H. Sezaki, S. Ishikawa, T. Maeda, T. Sato, T. Kikkawa and S-I. Kuroki, “En-hanced-oxidation and interface modification on 4H-SiC(0001) substrate using alkaline earth met-al,” 11th European Conference on Silicon Carbide and Related Materials (ECSCRM2016), Halki-diki, Greece, WeP-37, pp. 557-558, 2016.

[14] M. De Silva, T. Kawasaki, T. Kikkawa, and S-I. Kuroki, “Low resistance Ti-Si-C ohmic contacts for 4H-SiC power devices using Laser annealing,” 11th European Conference on Silicon Carbide and Related Materials (ECSCRM2016), Halkidiki, Greece, WeP-39, pp. 561-562, 2016.

[15] T. T. Nguyen, M. Hiraiwa, and S-I. Kuroki, “Effect of (100) Si Crystal Orientation on Characteris-tics of Poly-Si Thin Film Transistors,” The 3rd International Symposium on Frontiers in Materials Science (28-30 September 2016, Hanoi, Vietnam, pp68, 2016.

[16] M. Hiraiwa, T. T. Nguyen, and S. I. Kuroki, “Charge-Trap Inactivation of Multi-Line-Beam CLC poly-Si TFTs using Channel Impurity Doing,” PRiME2016, 230th Meeting of ECS, Honolulu, USA, H03-2117, 2016.

[17] T. T. Nguyen, M. Hiraiwa, T. Hirata, and S. I. Kuroki, “Characterization of (100)-Dominantly Oriented Poly-Si Thin Film Transistors using Multi-Line Beam Continuous-Wave Laser Lateral Crystallization,” PRiME2016, 230th Meeting of ECS, Honolulu, USA, H03-2118, 2016.

[18] R. Mizukami, S. Takeshima, T. Yamashita, and S. Higashi, “Fabrication of single crystalline silicon thin film transistors and logic circuits on plastic substrate by meniscus force mediated layer trans-fer technique” 13th Int. Thin-Film Transistor Conf. 2017 (ITC2017), Austin, USA, pp. 17-18, 2017

[19] T. Hieda, R. Shin, H. Hanafusa, and S. Higashi, “Micro-thermal-plasma-jet Crystallization of Amorphous Silicon Films on Flexible Glass Substrate,” 34th Symposium on Plasma Processing (SPP34) / The 29th Symposium on Plasma Science for Materials (SPSM29), 17pB5, 2017.

[20] R. Nakashima, R. Shin, H. Hanafusa, and S. Higashi, “Generation of Ultra High Power Thermal Plasma Jet (Super TPJ) and Its Application to Crystallization of Amorphous Silicon Films,” Proc. Int. Symp. Dry Process (DPS2016), Sapporo, Japan, pp. 33-34, 2016.

[21] H. Harada, R. Shin, H. Hanafusa, and S. Higashi, “Crystallization and Activation of P+ Dope a-Ge Film by Atmospheric Pressure Micro-Thermal-Plasma-Jet,” Ext. Abs. 2016 Int. Conf. Solid State Dev. Mat. (SSDM2016), Tsukuba, Japan, D-2-03, 2016.

[22] 11. H. Hanafusa, R. Ishimaru, and S.Higashi, “High-temperature Oxidation of 4H-SiC by Thermal-Plasma-Jet,” 11th European Conference on Silicon Carbide and Related Materials (ECSCRM2016), Halkidiki, Greece, pp. 243-244, 2016

[23] R. Mizukami, S. Takeshima, T. Yamashita, and S. Higashi, “Improvement of transfer yield of sin-gle-crystalline silicon films and fabrication of thin-film transistors on polyethylene terephthalate substrate,” International Conference on Flexible and Printed Electronics (ICFPE2016), Yamagata, Japan, O12-4. p. 88, 2016.

[24] S. Higashi, H. Harada, andT. Nakatani, “Atmospheric pressure micro-thermal-plasma-jet irradia-tion on amorphous germaniumstrips and its application to thin film transistor fabrication,” 2016 Asia-Pacific Workshop Fundamentals and Applications of Advanced Semiconductor Dev. (AWAD2016), Hakodate, Japan, pp. 427-429, 2016.

[25] S. Higashi, “Activation of Impurity Atoms in 4H-SiC Wafer by Atmospheric Pressure Thermal Plasma Jet Irradiation” Ext. Abs. 2016 Int. Workshop Junction Tech. (IWJT-2016), Shanghai, China, pp. 68-71, 2016 (Invited).

[26] K. Noda, K. Okada, Y. Amemiya, and S. Yokoyama, “Magneto-Optical Switching Devices Based on Si Resonators,” Jpn. J. App. Phys. 55 (4), pp. 04EN02-1-6, 2016.

[27] Y. Amemiya, K. Noda, T. Sennichi, and S. Yokoyama, “MEMS Optical Switches Using Slot Ring Resonator for Low Voltage Operation,” Jpn. J. App. Phys. 55 (4), pp. 04EC15-1-5, 2016.

[28] A. Azhari, T. Sugitani, X. Xiao, and T. Kikkawa,”DC–17-GHz CMOS single-pole-eight-throw switching matrix for radar-based image detection,” Japanese Journal of Applied Physics 55, 127301-7, 2016.

[29] X. Xiao, H. Qi, Y. Tao, and T. Kikkawa, “Study on the interfacial adhesion property of low-k thin film by the surface acoustic waves with cohesive zone model,” Applied Surface Science, 388, pp. 448-454, 2016.

[30] L. Wang, X. Xiao, and T. Kikkawa, “MRI-aided tissues interface characterization: An accurate signal propagation time calculation method for UWB breast tumor imaging, Applied Surface Science,” 388, pp. 24-34, 2016.

[31] X. Xiao, H. Qi, X. Sui, and T. Kikkawa,”Evaluation and criterion determination of the low-k thin film adhesion by the surface acoustic waves with cohesive zone model,” Applied Surface Science, 399, pp. 599-607, 2017.

[32] H. Song, A. Azhari, X. Xiao, E. Suematsu, H. Watanabe, and T. Kikkawa, “Microwave Imaging Using CMOS Integrated Circuits with Rotaing 4×4 Antenna Array on a Breast Phantom,” Interna-tional Journal of Antenna and Propagation, Article ID 6757048, 2017.

[33] 平野拓一, 吉川公麿, 広川二郎, 安藤真, “人体検査用広帯域五角形パッチアンテナ,” “Wide-band pentagonal patch antenna for body diagnosis,” 電子情報通信学会論文誌 C, Vol.J99-C No.8, pp. 365-372, 2016.

[34] H. Song, H. Kohno, X. Xiao, and T. Kikkawa, “Propagation of Gaussian Monocycle Pulses in Breast Phantoms with Slot Antenna Arrays,” Proc. 10th European Concerence on Antennas and Propaga-tion, p.129, Davos, Switzerland, 2016.

[35] T. Kikkawa, “A radar-based breast cancer detection system using CMOS integrated circuits,” Proc. Ireland-Japan Biomaterials & Tissue Engineering Meeting Galway, Ireland, 2016.

[36] H. Song, Y. Seo, H. Sato, T. Uruma, and T. Kikkawa,” Breast cancer imaging with a dome antenna array using a radar-based Ultra-wideband CMOS detection system,” Extended Abstract International Solid-State Devices and Materials, H-4-03, Tsukuba, Japan, 2016.

[37] H. Song, H. Kono, Y. Seo, A. Azhari, X. Xiao, and Takamaro Kikkawa, “Confocal imaging by turning antennas with CMOS integrated circuits for breast cancer detection,” Proc. International Symposium on Antenna and Propagation, Okinawa, Japan, 2016.

[38] H. Song, S. Kubota, X. Xiao, and T. Kikkawa, “Design of UWB Antennas for Breast Cancer De-tection,” in Proc. International Conference on Electromagnetics in Advanced Applications (ICEAA), No. 140, p.321, Session 38, Cairns, Australia, 2016.

[39] H. Song, H. Sato, X. Xiao, and T. Kikkawa, “A Portable Breast Cancer Imaging System with Cross-shaped Dome Antenna Array,” Proc. EuCAP, p. 3486, Paris, France, 2017.

[40] N. Shinohara, T. Nakazato, K. Ohkawa, M. Tamura, N. Kobayashi, Y. Morimoto, T. Oyabu, T. Myojo, M. Shimada, K. Yamamoto, H. Tao, M. Ema, M. Naya, and J. Nakanishi, “Long-term Re-tention of Pristine Multi-walled Carbon Nanotubes in Rat Lungs after Intratracheal Instillation,” J. Appl. Toxicol. 36 (4), pp. 501-509, 2016.

[41] Y. Morimoto, H. Izumi, Y. Yoshiura, T. Tomonaga, B.-W. Lee, T. Okada, T. Oyabu, T. Myojo, M. Shimada, M. Kubo, K. Yamamoto, S. Kitajima, E. Kuroda, M. Horie, K. Kawaguchi, and T. Sasaki, “Comparison of Pulmonary Inflammatory Responses Following Intratracheal Instillation and In-halation of Nanoparticles,” Nanotoxicol. 10 (5), pp. 607-618, 2016.

[42] M. Kubo, K. Kusdianto, H. Masuda, and M. Shimada, “Fabrication of a Metal Oxide Layer on a Multi-walled Carbon Nanotube Surface by In-flight Coating using Gas-phase Deposition,” Ceram-ics International, 42 (7), pp. 9162-9169, 2016.

[43] Y. Morimoto, H. Izumi, Y. Yoshiura, T. Tomonaga, T. Oyabu, T. Myojo, K. Kawai, K. Yatera, M. Shimada, M. Kubo, K. Yamamoto, S. Kitajima, E. Kuroda, K. Kawaguchi, and T. Sasaki, “Evalua-tion of Pulmonary Toxicity of Zinc Oxide Nanoparticles following Inhalation and Intratracheal Instillation,” Int. J. Mol. Sci. 17, 1241, 2016.

[44] M. Nakashima, N. Murata, Y. Suenaga, H. Naito, T. Sasaki, Y. Kunugi, and J. Ohshita, “Disila-nobithiophene-dithienylbenzothiadiazole alternating polymer as donor material of bulk hetero-junction polymer solar cells,” Syn. Met. 215, pp. 116-120, 2016.

[45] M. Nakashima, Y. Ooyama, T. Sugiyama, H. Naito, and J. Ohshita, “Synthesis of a Conjugated D-A Polymer with Bi(disilanobithiophene) as a New Donor Component,” Molecules, 21, 789, 2016.

[46] J. Ohshita, K. Yamamoto, D. Tanaka, M. Nakashima, Y. Kunugi, M. Ohashi, and H. Nakano, “Preparation and Photocurrent Generation of Silicon Nanosheets with Aromatic Substituents on the Surface,” J. Phys. Chem. C, 120, pp. 10991-10996, 2016

[47] M. Nakashima, M. Miyazaki, Y. Ooyama, Y. Fujita, S. Murata, Y. Kunugi, and J. Ohshita, “Syn-thesis of silicon- or carbon-bridged polythiophenes and application to organic thin-film transistors,” Polym. J. 48, pp. 645-651, 2016.

[48] M. Morisue, Y. Hoshino, M. Nakamura, T. Yumura, S. Machida, Y. Ooyama, M. Shimizu, and J. Ohshita; Group 14 Dithienometallole-Linked Ethynylene-Conjugated Porphyrin Dimers; Inorg. Chem. 55, pp. 7432–7441, 2016.

[49] F. B. Zhang, Y. Adachi, Y. Ooyama, and J. Ohshita, “Synthesis and Properties of Benzofu-ran-Fused Silole and Germole Derivatives: Reversible Dimerization and Crystal Structures of Monomers and Dimers,” Organometallics, 35, pp. 2327–2332, 2016.

[50] M. Nakamura, Y. Ooyama, S. Hayakawa, M. Nishino, and J. Ohshita, “Synthesis of Poly(dithienogermole)s,” Organometallics, 35, pp. 2333–2338, 2016.

[51] Y. Ooyama, N. Yamaguchi, J. Ohshita, and Y. Harima, “Impacts of molecular structure and ad-sorption mode of D-π-A dye sensitizers with pyridyl group for dye-sensitized solar cells on ad-sorption equilibrium constant for dye-adsorption to TiO2 surface,” Phys. Chem. Chem. Phys. 18, pp. 32992-32998, 2016.

[52] Y. Ooyama, K. Furue, T. Enoki, Y. Adachi, M. Kanda, and J. Ohshita, “Development of Type-I/Type-II hybrid dye sensitizer with both pyridyl group and catechol unit as anchoring group for Type-I/Type-II dye-sensitized solar cell,” Phys. Chem. Chem. Phys. 18, pp. 30662-30676, 2016,.

[53] Y. Ooyama, M. Hato, T. Enoki, S. Aoyama, K. Furue, N. Tsunoji, and J. Ohshita, “BODIPY sensor for water based on photo-induced electron transfer method with fluorescence enhancement and attenuation systems,” New J. Chem. 40, pp. 7278-7281, 2016.

[54] J. Ohshita, “Group 14 metalloles condensed with heteroaromatic systems,” Org. Photonics Photo-volt. 4, pp. 52–59, 2016.

[55] A. Naka, K. Fujishima, E. Okada, M. Noguchi, J. Ohshita, Y. Adachi, Y. Ooyama, and M. Ishika-wa, “Synthesis of pentamethyldisilanyl-substituted starlike molecule with triazine core and its ap-plication to dye-sensitized solar cells,” J. Organomet. Chem. 825, pp. 63-68, 2016.

[56] A. Harada, S. Koge, J. Ohshita, and Y. Kaneko, “Preparation of a Thermally Stable Room Tem-perature Ionic Liquid Containing Cage-Like Oligosilsesquioxane with Two Types of Side-Chain Groups,” Bull. Soc. Chem., Jpn, 89 (9), pp. 1129-1135, 2016.

[57] Z. Lu, K. Murakami, S. Koge, T. Mizumo, and J. Ohshita, “Palladium-catalyzed dehydrogenative amination of polyhydrosiloxanes,” J. Organomet. Chem. 808, pp. 63-67, 2016.

[58] J. Ohshita, Y. Hayashi, K. Murakami, T. Enoki, and Y. Ooyama, “Singlet oxygen generation sensi-tized by spiro(dipyridinogermole)(dithienogerrnole)s,” Dalton Trans. 45 (39), pp. 15679-15683, 2016.

[59] Y. Adachi, Y. Ooyama, N. Shibayama, and J. Ohshita, “Synthesis of organic photosensitizers con-taining dithienogermole and thiadiazolo[3,4-c]pyridine units for dye-sensitized solar cells,” Dalton Trans. 45 (35), pp. 13817-13826, 2016.

[60] 山本一樹,　大下浄治, “有機架橋型元素ブロックを用いたオルガノシリカ連続膜の作製とその分離能,”　セラミックス協会誌, 51 (11), pp. 770-772, 2016.

[61] S. Nagaoka, T. Kakiuchi, J. Ohshita, O. Takahashi, and Y. Hikosaka, “Site-Specific Elec-tron-Relaxation Caused by Si:2p Core-Level Photoionization: Comparison between F3SiCH2CH2Si(CH3)3 and Cl3SiCH2CH2Si(CH3)3 Vapors by Means of Photoelectron Auger Electron Coincidence Spectroscopy,” J. Phys. Chem. A, 120, pp. 9907-9915, 2016.

[62] S. Hirata, T. Ono, Y. Amemiya, T. Tabei, and S. Yokoyama, “Influence of Surface Smoothing on Spin Seebeck Effect of Ce1Y2Fe5O12 Deposited by Metal Organic Decomposition,” Extend. Abst. Int. Conf. on Solid State Devices and Materials (SSDM2016), Tsukuba, Japan, PS-12-13, pp. 933-934, 2016.

[63] A. Nakajima, “Application of Single-Electron Transistor to Biomolecule and Ion Sensors,” Appl. Sci. 6 (4), pp. 94-107, 2016 (Review paper).

[64] X. Zhang, F. An, L. Chen, and H. J. Mattausch, “Reconfigurable VLSI implementation for learning vector quantization with on-chip learning circuit,” Jpn. J. Appl. Phys. 55 (4), SI, 04EF02, 2016.

[65] F. An, K. Mihara, S. Yamasaki, L. Chen, and H. J. Mattausch, “Highly flexible near-est-neighbor-search associative memory with integrated KNN classifier, configurable parallelism and dual-Storage Space,” Jpn. J. Appl. Phys. 55 (4), SI, 04EF10, 2016.

[66] F. An, K. Mihara, S. Yamasaki, L. Chen, and H. J. Mattausch, ”K-Nearest Neighbor Associative Memory with Reconfigurable Word-Parallel Architecture“, Journal of Semiconductor Technology and Science, 16 (4), pp. 405-414, 2016.

[67] F. An, X. Zhang, L. Chen, and H. J. Mattausch, ”A Memory-based Modular Architecture for SOM and LVQ with Dynamic Configuration,“ IEEE Trans. on Multi-Scale Computing Systems, 2 (4), pp. 234-241, 2016.

[68] J. Guan, F. An, X. Zhang, L. Chen, and H. J. Mattausch, “Real-Time Straight-Line Detection for XGA-Size Videos by Hough Transform with Parallelized Voting Procedures,” Sensors, 17 (2), pp. 270-283, 2017.

[69] F. An, X. Zhang, L. Chen, and H. J. Mattausch, “Dynamically Reconfigurable System for LVQ-Based On-chip Learning and Recognition,” Proc. IEEE Int. Symposium on Circuits and Sys-tems (ISCAS’16), 525-528, Canada, Montreal, 1338-1341, 2016.

[70] X. Zhang, F. An, N. Nakashima, L. Chen, and H. J. Mattausch, “Cell-Scan-based Hardware Archi-tecture for HOG-Feature Extraction”, Extended Abstracts of the 2016 International Conference on Solid State Devices and Materials (SSDM’2016), Tsukuba, Japan, pp. 455-456, 2016.

[71] A. Luo, F. An, Y. Fujita, X. Zhang, L. Chen, and H. J. Mattausch, “Real-Time Haar-like Feature Extraction Coprocessor with Pixel-Based Pipelined Hardware Architecture for Flexible Low-Power Object Detection and Recognition”, Extended Abstracts of the 2016 International Conference on Solid State Devices and Materials (SSDM’2016), Tsukuba, pp. 457-458, 2016.

[72] F. An, X. Zhang, L. Chen, and H. J. Mattausch, ”Parallel-Elementary-Stream Architecture for Nearest-Neighbor-Search-based Self-Organizing Map“, Proceedings of the International Confer-ence on Solid-State and Integrated-Circuit Technology (ICSICT’2016), Hangzhou, China, 2016 (Invited).

[73] Y. Fujita, F. An, A. Luo, X. Zhang, L. Chen, and H. J. Mattausch, “Pixel-Based Pipeline Hardware Architecture for High-Performance Haar-like Feature Extraction,” Proceedings of the 2016 IEEE Asia Pacific Conference on Circuits and Systems (APCCAS’2016), Jeju, Korea, Japan, pp. 611-612, 2016.

[74] T. Hoang, T. Okamoto, and T. Koide, “Prototype Speed Limit Sign Recognition System Imple-mentation on Rapid Prototyping Platform,” Proceedings of the 20th Workshop on Synthesis And System Integration of Mixed Information technologies (SASIMI 2016), pp. 201-202, 2016.

[75] T. Kumaki, T. Koide, and T. Fujino, “Secure data processing with massive-parallel SIMD matrix for embedded SoC in digital-convergence mobile devices,” IEEJ Transactions on Electrical and Electronic Engineering, 12 (1), 2016.

[76] M Fujishima, “300GHz CMOS Wireless Communication with 32 Quadra-ture-Amplitude-Modulation Capability,” ECS Transactions 72 (3), pp. 105-111, 2016 (Invited).

[77] K Takano, K Katayama, S Amakawa, T Yoshida, and M Fujishima, “Wireless digital data trans-mission from a 300-GHz CMOS transmitter,” Electronics Letters, 52 (15), pp. 1353-1355, 2016.

[78] S. Hara, K. Katayama, K. Takano, I. Watanabe, N. Sekine, A. Kasamatsu, T. Yoshida, S. Amakawa, and M. Fujishima, “Compact 141-GHz Differential Amplifier with 20-dB Peak Gain and 22-GHz 3-dB Bandwidth,” IEICE Transactions on Electronics, 99 (10), pp. 1156-1163, 2016.

[79] T. Mitsunaka, D. Sato, N. Ashida, A. Saito, K. Iizuka, T. Suzuki, Y. Ogawa, and M. Fujishima, “CMOS biosensor IC focusing on dielectric relaxations of biological water with 120 and 60 GHz oscillator arrays,” IEEE Journal of Solid-State Circuits, 51 (11), pp. 2534-2544, 2016.

[80] K. Katayama, K. Takano, S. Amakawa, S. Hara, A. Kasamatsu, K. Mizuno, K. Takahashi, T. Yo-shida, and M. Fujishima, “A 300 GHz CMOS transmitter with 32-QAM 17.5 Gb/s/ch capability over six channels,” IEEE Journal of Solid-State Circuits, 51 (12), pp. 3037-3048, 2016.

[81] K. Katayama , K. Takano , S. Amakawa , S. Hara , A. Kasamatsu , K. Mizuno , K. Takahashi , T. Yoshida , and M. Fujishima, “A 300GHz 40nm CMOS Transmitter with 32-QAM 17.5Gb/s/ch Capability over 6 Channels,” Digest of Technical Papers IEEE International Solid-State Circuits Conference (ISSCC) 2016, pp. 342-343, 2016.

[82] T. Mitsunaka, N. Ashida, A. Saito, K. Iizuka, T. Suzuki, Y. Ogawa, and M. Fujishima, “CMOS Biosensor IC Focusing on Dielectric Relaxations of Biological Water with 120GHz and 60GHz Oscillator Arrays,” Digest of Technical Papers IEEE International Solid-State Circuits Conference (ISSCC), pp. 478-479, 2016.

[83] K. Takano, S. Hara, K. Katayama, S. Amakawa, T. Yoshida, and M. Fujishima, “Quintic Mixer: A Subharmonic Up-Conversion Mixer for THz Transmitter Supporting Complex Digital Modulation,” 2016 IEEE International Microwave Symposium (IMS2016), pp. 1-3, 2016.

[84] K. Katayama, K. Takano, S. Amakawa, S. Hara, T. Yoshida, and M. Fujishima, “CMOS 300-GHz 64-QAM Transmitter,” 2016 IEEE International Microwave Symposium (IMS2016), pp. 1-4, 2016.

[85] K. Katayama, K. Takano, S. Amakawa, T. Yoshida, and M. Fujishima, “14.4-dB CMOS D-band Low-Noise Amplifier with 22.6-mW Power Consumption Utilizing Bias-Optimization Technique,” The 2016 IEEE International Symposium on Radio-Frequency Integration Technology (RFIT2016), pp. 1-3, 2016.

[86] T. Yoshida, H. Adachi, K. Takano, K. Katayama, S. Amakawa, and M. Fujishima, “System-level evaluation of 300GHz CMOS wireless transmitter using cubic mixer,” The 2016 IEEE International Symposium on Radio-Frequency Integration Technology (RFIT2016), pp. 1-3, 2016.

[87] T. Hirakawa, T. Tamaki, B. Raytchev, K. Kaneda, T. Koide, S. Yoshida, Y. Kominami, and S. Tanaka, “Defocus-aware Dirichlet particle filter for stable endoscopic video frame recognition,” Artificial Intelligence in Medicine, 68, pp. 1-16, 2016.

[88] T. Hirakawa, T. Tamaki, T. Kurita, B. Raytchev, K. Kaneda, C. Wang, L. Najman, T. Koide, S. Yoshida, H. Mieno, and S. Tanaka, “Discriminative subtree selection for NBI endoscopic image labeling,” The ACCV2016 workshop on mathematical and computational methods in biomedical imaging and image analysis (MCBMIIA2016), 2016.

[89] Y. Kominami, S. Yoshida S, S. Tanaka, Y. Sanomura, T. Hirakawa, B. Raytchev, T. Tamaki, T. Koide, K. Kaneda, and K. Chayama, “Computer-aided diagnosis of colorectal polyp histology by using a real-time image recognition system and narrow-band imaging magnifying colonoscopy,” Gastrointest Endosc. 83:643-9. 2016.

[90] S. Sonoyama, T. Tamaki, T. Kurita, T. Hirakawa, B. Raytchev, K. Kaneda, T. Koide, S. Yoshida, H. Mieno, and S. Tanaka, “Transfer Learning for Endoscopic Image Classification,” Proceedings of the 22nd Korea-Japan joint Workshop on Frontiers of Computer Vision (FCV 2016).

[91] T. Tamaki, S. Sonoyama, T. Hirakawa, B. Raytchev, K. Kaneda, T. Koide, S. Yoshida, H. Mieno and S. Tanaka, “Computer-Aided Colorectal Tumor Classification in NBI Endoscopy Using CNN Fea-tures”, Proceedings of the 22nd Korea-Japan joint Workshop on Frontiers of Computer Vision (FCV 2016).

[92] T. Koide, T. Okamoto, K. Sugi, T. Shimizu, A. T. Hoang, T. Tamaki, B. Raytchev, K. Kaneda, S. Yoshida, H. Mieno, and S. Tanaka, “A Hardware Accelerator for Bag-of Features based Visual Word Transformation in Computer Aided Diagnosis for Colorectal Endoscopic Images,” Proceedings of the 31st International Technical Conference on Circuits/Systems, Computers and Communications (ITC-CSCC2016), pp. 233-236, 2016.

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