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何 東風
Address
305-0047 茨城県つくば市千現1-2-1 [アクセス]

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論文 TSV

2021
  1. Dongfeng He. Developing Gradiometer to Reduce the Low Frequency Noise of Magnetic Sensor with Amorphous Wire. Journal of Electrical and Electronic Engineering. (2021) 33-40 10.11648/j.jeee.20210902.11
2017
  1. HE, Dongfeng. AMR sensor and its application on nondestructive evaluation. Magnetic Sensors - Development Trends and Applications. (2017) 133-154
  2. HE, Dongfeng, SHIWA, Mitsuharu, Satoshi Takaya, TSUCHIYA, Koichi. Covering Depth Detection of Steel Rebar Using Electromagnetic Method. Electromagnetic Nondestructive Evaluation (XX). 42 [XX] (2017) 247-252 10.3233/978-1-61499-767-2-247
2014
  1. Dongfeng HE, Mitsuharu SHIWA, Yoshinori ONO, Masao HAYAKAWA, Hideo SUNAKAWA, Naoki NAGAO, Shinichi MORIYA, Eiichi SATO, Shejuan XIE, Tetsuya UCHIMOTO, Toshiyuki TAKAGI. Nondestructive material reliability evaluation for Cu-alloy of combustion chamber. Journal of Fluid Science and Technology. 9 [5] (2014) JFST0075-JFST0075 10.1299/jfst.2014jfst0075
  2. Dongfeng He, Mitsuharu Shiwa. A Magnetic Sensor with Amorphous Wire. Sensors. 14 [6] (2014) 10644-10649 10.3390/s140610644
2012
  1. Norimichi Watanabe, Yuji Miyato, Minoru Tachiki, Tadayuki Hayashi, Dongfeng He, Hideo Itozaki. High–Resolution Magnetic Field Measurement Using an STM–SQUID. Physics Procedia. 36 (2012) 300-305 10.1016/j.phpro.2012.06.163
  2. Koichi. Okita. Damage Evaluation of Copper Alloy by Eddy Current Testing with AMR Sensor. STUDIES IN APPLIED ELECTROMAGNETICS AND MECHANICS. 36 (2012) 211-218 10.3233/971-1-60750-968-4-211
2011
  1. D. F. He, M. Shiwa. An anisotropic magneto resistive sensor with set/reset field. Review of Scientific Instruments. 82 [9] (2011) 094703 10.1063/1.3640412
  2. D.F. He, M. Shiwa, J.P. Jia, J. Takatsubo, S. Moriya. Multi-frequency ECT with AMR sensor. NDT & E International. 44 [5] (2011) 438-441 10.1016/j.ndteint.2011.04.004
  3. Junji Takatsubo. Developing ECT System with AMR Sensor for Combustion Chamber. STUDIES IN APPLIED ELECTROMAGNETICS AND MECHANICS. 35 [XIV] (2011) 211-216 10.3233/978-1-60750-750-5-211
  4. Norimichi Watanabe, Tadayuki Hayashi, Minoru Tachiki, Dongfeng He, Hideo Itozaki. Evaluation of an STM-SQUID Probe Microscope. IEEE Transactions on Applied Superconductivity. 21 [3] (2011) 420-423 10.1109/tasc.2010.2086033
  5. D. F. He. Note: A hand-held high-Tc superconducting quantum interference device operating without shielding. Review of Scientific Instruments. 82 [2] (2011) 026110 10.1063/1.3553016
  6. D. F. He, J. P. Jia. Heat Transfer Effects in Scanning Anisotropic Magnetoresistive Imaging. IEEE Transactions on Magnetics. 47 [1] (2011) 264-266 10.1109/tmag.2010.2088131
2010
  1. 何 東風, 志波 光晴, 山脇 寿, 立木 実, 糸崎 秀夫, 森谷信一, 升岡 正, 植竹 一蔵. ECTによる燃焼器の欠陥検出の基礎検討. HIHAKAI KENSA(非破壊検査). 59 [10] (2010) 510-514
2008
  1. HE, Dongfeng, TACHIKI, Minoru, ITOZAKI, Hideo. Hand-held NDE System Using High-Tc SQUID. Cryogenics and Superconductivity(低温与超導(中国)). 36 [11] (2008) 67-70
  2. D F He, M Tachiki, H Itozaki. N-14 NQR using a high-Tc rf SQUID with a normal metal transformer. Superconductor Science and Technology. 21 [1] (2008) 015023 10.1088/0953-2048/21/01/015023
2007
  1. D F He, M Tachiki, H Itozaki. 14N nuclear quadrupole resonance of p-nitrotoluene using a high-Tc rf SQUID. Superconductor Science and Technology. 20 [3] (2007) 232-234 10.1088/0953-2048/20/3/020
2005
  1. M. Yoshizawa, HE, Dongfeng, K. Nakai, K. Kobayashi, Y. Nakamura, M. Yaegashi, M. Ito, H. Yashiro, M. Daibo, T. Simizu, Y. Uchikawa, K. Noto. Application of squids in the Iwate create project. PHYSICA C-SUPERCONDUCTIVITY AND ITS APPLICATIONS. 426 [2] (2005) 1572-1579
  2. D. He, M. Yoshizawa, H. Yashiro, M. Nakamura. High-Tc dc SQUID Cooled by Pulse-Tube Cooler and Corrosion Measurements. IEEE Transactions on Appiled Superconductivity. 15 [1] (2005) 40-43 10.1109/tasc.2005.844130
2004
  1. D.F. He, M. Yoshizawa, Y. Oyama, M. Nakamura. Detecting defect in cast iron using high-TC SQUID. Physica C: Superconductivity. 412-414 (2004) 1480-1483 10.1016/j.physc.2004.01.144

会議録 TSV

2020
  1. Dongfeng He. Corrosion Evaluation of Steel Rebar Using Electromagnetic Induction Method. Studies in Applied Electromagnetics and Mechanics. 2020, 141-146
2019
  1. Crack Evaluation of Titanium Alloy Using ECT with High Sensitivity Magnetic Sensor. Electromagnetic Nondestructive Evaluation XXII. 2019, 32-37
2016
  1. HE, Dongfeng, SHIWA, Mitsuharu, Satoshi Takaya, TSUCHIYA, Koichi. Steel Reinforcing Bar Detection Using Electromagnetic Method. Progress in Electromagnetics Research Symposium (PIERS) Proceedings 2016. 2016, 3954-3956
  2. 何 東風, 志波 光晴, 萩原 益夫, 高谷哲. Depth detection of steel rebar using electromagnetic method. 安全・安心な社会を築く先進材料・非破壊計測技術シンポジウム論文集. 2016, 37-38
2015
  1. HE, Dongfeng, SHIWA, Mitsuharu. High Sensitive Magnetic Sensor with Amorphous Wire. Proceedings of 2015 Ninth lntemational Conference on Sensing Teclmology. 2015, 586-588
  2. HE, Dongfeng, SHIWA, Mitsuharu, NAITO, Kimiyoshi. Crack detection of CFRP cable using ECT with saw-wave excitation. Proceedings of ENDE2015. 2015, 9999-9999
2014
  1. SHIWA, Mitsuharu, HE, Dongfeng, Shinich, Naoki, Teiu. Non-destructive Evaluation of Cu-Alloy Combustion Chamber of Liquid Rocket by ECT. Proceedings of ICFD2014. 2014, 17-17
  2. HE, Dongfeng, SHIWA, Mitsuharu, Shinichi Moriya, Naoki Nagao, Teiu Kobayashi. Checking combustion chamber of liquid rocket using ECT with AMR sensor. Proceedings of the 19th ENDE. 2014, 24-24
2013
  1. SHIWA, Mitsuharu, HE, Dongfeng, ONO, Yoshinori, HAYAKAWA, Masao, Hideo Sunakawa, Naoki Nagao, Sinich Moriya, Eiichi Sato, Tetsuya Uchimoto, Toshiyuki Takakagi. Non-destructive materials reliability evaluation for Cu-ally of combustion chamber. Proceedings of ICFD10. 2013, 504-505
  2. HE, Dongfeng, SHIWA, Mitsuharu. Deep Defect Detection Using Eddy Current Testing with AMR Sensor. PIERS PROCEEDINGS. 2013, 493-495
  3. HE, Dongfeng, SHIWA, Mitsuharu, Shinichi Moriya. Checking of Combustion Chamber of Liquid Rocket Using ECT with AMR Sensor. PIERS Proceedings. 2013, 261-263
2012
  1. 何 東風, 志波 光晴, 森谷信一. AMR-based ECT system for the checking of combustion chamber. 第15回表面擦傷シンポジウム講演論文. 2012, 25-28
  2. Norimichi Watanabe, Yuji Miyato, Minoru Tachiki, Tadayuki Hayashi, Dongfeng He, Hideo Itozaki. High–Resolution Magnetic Field Measurement Using an STM–SQUID. PHYSICS PROCEDIA. 2012, 300-305
  3. HE, Dongfeng, SHIWA, Mitsuharu, Yanzhi Zhang, Shinichi Moriya, Hitekazu Sato. AMR-based ECT system for the evaluation of copper alloy and the checking of combustion chamber. 全・安心な社会を築く先進材料 非破壊計測技術シンポジウム. 2012, 9-13
  4. HE, Dongfeng, SHIWA, Mitsuharu, Junji Takatsubo, Shinichi Moriya. Checking of Combustion Chamber of Rocket Using ECT with AMR Sensor. Progress in Electromagnetics Research Symposium. 2012, 1620-1622
2011
  1. 渡邉騎通, 林 忠之, 立木 実, 何 東風, 糸崎 秀夫. STM-SQUIDによるミアンダラインの磁場分布計測. 電子情報通信学会技術研究報告. SCE,  超伝導エレクトロニクス. 2011, 41-44
  2. HE, Dongfeng, SHIWA, Mitsuharu, J. Takatsubo, S. Moriya. Checking of Combustion Chamber of Rocket Using ECT with AMR Sensor. Progress in Electromagnetics Research Symposium. 2011, 540-542
  3. Norimichi Watanabe, Tadayuki Hayashi, Minoru Tachiki, Dongfeng He, Hideo Itozaki. Evaluation of an STM-SQUID Probe Microscope. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY. 2011, 420-423
2010
  1. WATANABE, Makoto, HE, Dongfeng, YAMAWAKI, Hisashi, SHIWA, Mitsuharu. Current Research Topics for Nondestructive Reliability Evaluation in NIMS. Proceedings of 2010 International Symposium on Structural Integrity. 2010, 37-40
2009
  1. TACHIKI, Minoru, HAYASHI, Tadayuki, HE, Dongfeng, ITOZAKI, Hideo. STM-SQUID Probe Microscope Based on an RF SQUID Magnetometer. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY. 2009, 874-877
  2. HE, Dongfeng. Eddy-current NDE Using an AMR Magnetometer. PIERS Proceedings. 2009, 767-769
2008
  1. HE, Dongfeng, TACHIKI, Minoru, ITOZAKI, Hideo. NDE using high-Tc SQUID. The proceedings of the conference of chinese superconducting film and electronics. 2008, 83-88
2007
  1. HE, Dongfeng, TACHIKI, Minoru, ITOZAKI, Hideo. Detecting the NQR signal using high-Tc SQUID. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY. 2007, 843-845
  2. TACHIKI, Minoru, HE, Dongfeng, ITOZAKI, Hideo. Sensing of chemical substances using SQUID-based nuclear quadrupole resonance. PHYSICA C-SUPERCONDUCTIVITY AND ITS APPLICATIONS. 2007, 1034-1037
2006
  1. HE, Dongfeng, ITOZAKI, Hideo. High-Tc dc SQUID Readout Electronics with Low Noise and High Bandwidth. PHYSICA C-SUPERCONDUCTIVITY AND ITS APPLICATIONS. 2006, 982-985
  2. HE, Dongfeng, ITOZAKI, Hideo, TACHIKI, Minoru. Improving the Sensitivity of High-Tc SQUID at MHz Frequency Using a Normal Metal Transformer. Superconductor Science and Technology. 2006, S231-S234
  3. HE, Dongfeng, ITOZAKI, Hideo. Measuring the absolute magnetic field using high-Tc SQUID. Journal of Physics: Conference Series. 2006, 1227-1230
2005
  1. TACHIKI, Minoru, HASHI, Kenjiro, SHIMIZU, Tadashi, HE, Dongfeng, 太田剛, ITOZAKI, Hideo. Remote detection of nitrogenated substances by Nuclear Quadrupole Resonance. HUDEM2005 proceedings. 2005, 107-109
  2. HE, Dongfeng, M. Yoshizawa, M. Nakamura, ITOZAKI, Hideo. Electronic Axial HTS dc SQUID gradiometer cooled by puls-tube cooler. IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY. 2005, 703-706

口頭発表 TSV

2019
  1. HE, Dongfeng. Steel Rebar Corrosion Evaluation Using Electromagnetic Method. The 19th International Symposium on Applied Electromagnetics and Mechanics. 2019
  2. HE, Dongfeng. Corrosion evaluation of steel rebar in concrete using electromagnetic method. The 24th International Workshop on Electromagnetic Nondestructive Evaluation. 2019
  3. HE, Dongfeng, 高谷哲, TSUTSUMI, Naoto, TSUCHIYA, Koichi. Corrosion Evaluation of Steel Reinforcing Bar Using Electromagnetic Method. Progress In Electromagnetics Research Symposium (The 41st PIERS in Rome, Italy). 2019
  4. HE, Dongfeng, 高谷哲, TSUTSUMI, Naoto, TSUCHIYA, Koichi. Evaluation of Steel Reinforcing Bar in Concrete Using Electromagnetic Method. 第22回 磁粉・浸透・目視部門/電磁気応用部門/漏れ試験部門 合同シンポジウム. 2019
2018
  1. HE, Dongfeng. Corrosion evaluation of steel rebar using electromagnetic method. SIPインフラ・防災国際セミナー. 2018
  2. HE, Dongfeng, 高谷哲, TSUTSUMI, Naoto, TSUCHIYA, Koichi. Evaluation of the steel rebar corrosion using electromagnetic method. 平成30年度 第2回保守検査部門ミニシンポジウム. 2018
  3. BULGAREVICH, Dmitry, 赤峰 勇佑, Valynn Katrine P. MAG-USARA, 北原 英明, 加藤 博之, HE, Dongfeng, KUSANO, Masahiro, 谷 正彦, WATANABE, Makoto. On-Chip Terahertz Near-Field Generation/Detection Scheme. IRMMW-THz 2018. 2018
  4. HE, Dongfeng, 王志, KUSANO, Masahiro, KISHIMOTO, Satoshi, WATANABE, Makoto. Crack evaluation of titanium alloy using ECT with high sensitivity magnetic sensor. International Workshop on Nondestructive Evaluation. 2018
  5. HE, Dongfeng, SHIWA, Mitsuharu, TSUTSUMI, Naoto, TSUCHIYA, Koichi, Satoshi Takaya. Corrosion Evaluation of Steel Reinforcing Bar Using Electromagnetic Method. Progress in Electromagnetics Research Symposium (PIERS). 2018
  6. HE, Dongfeng, SHIWA, Mitsuharu, Satoshi Takaya, TSUTSUMI, Naoto, TSUCHIYA, Koichi. Evaluation of Steel Reinforcing Bar in Concrete Using Electromagnetic Method. Far East NDT 2018. 2018
  7. 何 東風, 王 志, 草野 正大, 岸本 哲, 渡邊 誠. Evaluation of 3D-printed titanium alloy using eddy current testing. 第21回磁粉・浸透・目視部門・電磁気応用部門・漏れ試験部門合同シン. 2018
2016
  1. 何 東風, 志波 光晴, 渡邊 誠. 電磁法によるコンクリート中の鉄筋評価法. 第14回環境研究シンポジウム. 2016
  2. HE, Dongfeng, SHIWA, Mitsuharu, Satoshi Takaya, TSUCHIYA, Koichi. Cover depth detection of steel reinforcing bar using electromagnetic method. 21st International Workshop on Electromagnetic Nondestructive Ev. 2016
2015
  1. 志波 光晴, 何 東風, 内一哲哉, 高木敏行, 小林悌宇. ECTによる燃焼器銅合金の欠陥検出、劣化損傷・余寿命評価. 平成27年安全・安心な社会を築く先進材料・非破壊計測技術シンポジウ. 2015
2014
  1. 志波 光晴, 何 東風, 早川 正夫, 佐藤英一, 小林悌宇. ロケットエンジン燃焼器用銅合金の電磁気による欠陥検出・損傷評価. 平成26年度第2回電磁応用現象・解析評価研究委員会. 2014
  2. 志波 光晴, 山脇 寿, 何 東風, 草野. 電磁気と超音波による複合材料接合部に関する非破壊評価の基礎検討. 第57回材料強度と破壊総合シンポジウム. 2014
  3. 志波 光晴, 何 東風, 小野 嘉則, 早川 正夫, 佐藤英一, 小林悌宇. 燃焼器銅合金の非破壊による劣化損傷・余寿命評価の課題. 安全・安心な社会を築く先進材料・非破壊計測技術シンポジウム. 2014
  4. 何 東風, 志波 光晴. 高感度磁気センサーと電磁非破壊評価. 安全・安心な社会を築く先進材料・非破壊計測技術シンポジウム. 2014
2013
  1. 立木 実, 林 忠之, 町田 理, 大井 修一, 何 東風, 糸崎 秀夫, 平田 和人. STM-SQUIDによる磁束量子観察のための数値シミュレーション. 「超伝導体における渦糸状態の物理と応用(2013)」 (第21回渦糸物理. 2013
  2. HAYASHI, Tadayuki, TACHIKI, Minoru, MACHIDA, Tadashi, OOI, Shuuichi, HE, Dongfeng, Itozaki Hideo, HIRATA, Kazuto. Hybrid Measurement of Superconducting Materials by STM-SQUID Microscope. European Conference on Applied Superconductivity. 2013
  3. 河野 丈治, 小川 明広, 森下 啓司, 西田 秀高, 田辺 圭一, 何 東風, 志波 光晴. オーステナイトステンレス鋼経年劣化に対するECT法による非破壊検査手法の検討について. 平成25年度 電気学会 電子・情報・システム部門大会. 2013
  4. SHIWA, Mitsuharu, HE, Dongfeng, HIDEO SUNAKAWA, NAOKI NAGAO, EIICHI SATO. Non-destructive damage evaluation for Cu-alloy. The 3rd International Symposium for Nondestructive Reliability . 2013
2012
  1. 立木 実, 林 忠之, 町田 理, 大井 修一, 渡邉 騎通, 何 東風, 糸崎 秀夫, 平田 和人. 超伝導材料のハイブリッド計測へ向けてのSTM-SQUID 磁気顕微鏡の開発. 第20回渦糸物理国内会議. 2012
  2. HE, Dongfeng, SHIWA, Mitsuharu, Shinichi Moriya. Checking the comubstion chamber of liquid rocket using ECT with AMR sensor. ENDE 2012. 2012
  3. 何 東風, 志波 光晴, 森谷信一. AMRセンサーシステムによる燃焼器の検査. 第15回 磁粉・浸透・目視部門・電磁気応用部門・漏れ試験部門合同シ. 2012
2011
  1. 立木 実, 林 忠之, 渡邉 騎通, 何 東風, 糸崎 秀夫, 平田 和人. STM-SQUID顕微鏡による低温試料の磁場分布計測. 第19回超伝導渦糸物理国内会議. 2011
  2. HAYASHI, Tadayuki, TACHIKI, Minoru, Norimichi Watanabe, HE, Dongfeng, Hideo Itozaki, HIRATA, Kazuto. MAGNETIC FIELD IMAGE OF COOLED SAMPLE BY STM-SQUID MICROSCOPE. The 6th East Asia Symposium on Superconductor Electronics. 2011
  3. HAYASHI, Tadayuki, TACHIKI, Minoru, Norimichi Watanabe, HE, Dongfeng, Hideo Itozaki. STM-SQUID Probe Microscope for Cooled Samples. Superconductivity Centennial Conference. 2011
  4. 林 忠之, 立木 実, 渡邉騎道, 何 東風, 糸崎秀夫. STM-SQUID顕微鏡による低温試料の磁場分布計測. 第72回応用物理学会学術講演会. 2011
  5. HE, Dongfeng, SHIWA, Mitsuharu. AMR Sensor with AC Bias. 2011 International Workshop on Sensor and Sensor Networks . 2011
  6. SHIWA, Mitsuharu, YAMAWAKI, Hisashi, LIU, Xinbao, HE, Dongfeng, Hideo Sunakawa, Kurosu Akihide, Koichi Okita. Non-destructive Damage Evaluation of Copper Alloy. 2011 Far East Forum on Nondestructive Evaluation/Testing. 2011
  7. 林 忠之, 立木 実, 渡邉 騎通, 何 東風, 糸崎 秀夫. STM-SQUID顕微鏡における試料温度低温化検討. 2011年春季 第58回 応用物理学関係連合講演会. 2011
  8. 渡邉 騎通, 林 忠之, 立木 実, 何 東風, 糸崎 秀夫. STM-SQUIDとMFMによるミアンダラインの磁場分布計測. 第58回 応用物理学関係連合講演会. 2011
  9. SHIWA, Mitsuharu, HE, Dongfeng, YAMAWAKI, Hisashi, LIU, Xinbao, Shinichi Moriya, Shinichi Moriya, Kouich Okita. DAMAGE EVALUATION OF COPPER ALLOY BY EDDY CURRENT TESTING WITH AMR SENSOR. 16th International Workshop on Electromagnetic NDE. 2011
2010
  1. 何 東風, 志波 光晴. Checking of combustion chamber of rocket using ECT with AMR sensor. 電磁応用現象・解析評価研究委員会発表会. 2010
  2. 林 忠之, 立木 実, 何 東風, 糸崎 秀夫. STM-SQUID. 日本学術振興会超伝導エレクトロニクス146委員会. 2010
  3. 何 東風, 志波 光晴, Jia Jianping, 高坪純治, 森谷信一. Multi-Frequency ECT for Detecting Defect in Copper Alloy. 日本金属学会2010年秋期大会. 2010
  4. HE, Dongfeng. The application of non-destructive technology for the checking of aerospace material. Close report to researchers and students in laboratory. 2010
  5. HE, Dongfeng, SHIWA, Mitsuharu, YAMAWAKI, Hisashi, UETAKE, Ichizo, Moriya Shinichi, Kurosu Akihide, Okita Koichi. DEVELOPING ECT SYSTEM WITH AMR SENSOR FOR COMBUSTION CHAMBER. ENDE '2010. 2010
  6. 志波 光晴, 何 東風, 山脇 寿, 劉 新宝, 砂川 明英, 沖田 耕一. 銅合金の高温劣化損傷時の超音波及び電磁気による非破壊評価法の検討. 平成22年度 春季講演大会講演. 2010
  7. 何 東風, 志波 光晴, 植竹 一蔵, 山脇 寿, 森谷 信一, 升岡 正. High sensitive AMR sensor and its application for ECT. 平成22年度 春季講演大会. 2010
  8. 何 東風, 志波 光晴, 山脇 寿, 植竹 一蔵, 森谷信一, 黒須明英, 沖田耕一. 異方性磁気抵抗素子を用いたECTシステムによる燃焼器模擬試験片の欠陥評価. 安心・安全な社会を築く先進材料・非破壊計測技術シンポジウム . 2010
  9. 志波 光晴, 何 東風, 劉 新宝, 山脇 寿, 黒須 明英, 沖田 耕一. 非破壊による銅合金の劣化損傷評価の基礎検討. 安心・安全な社会を築く先進材料・非破壊計測技術シンポジウム. 2010
2009
  1. HE, Dongfeng, SHIWA, Mitsuharu, UETAKE, Ichizo, YAMAWAKI, Hisashi, TACHIKI, Minoru, ITOZAKI, Hideo, Shinichi Moriya, Akihide Kurosu, Koichi Okita. Detection of Defect in Aluminum Plate Using AMR Sensor. QNDE 2009. 2009
  2. HE, Dongfeng, ITOZAKI, Hideo, TACHIKI, Minoru. Eddy-Current NDT Using Movable High-Tc SQUID in Unshielded Environment. ISEC2009. 2009
  3. HAYASHI, Tadayuki, TACHIKI, Minoru, HE, Dongfeng, WATANABE, Norimichi, ITOZAKI, Hideo. HTS SQUID Probe Microscope for Cooled HTS Sample. International Superconductive Electronics Conference 2009 . 2009
  4. 林 忠之, 立木 実, 糸崎 秀夫, 何 東風. RF SQUIDをセンサとしたSTM-SQUIDプローブ磁気顕微鏡. 2009年春季第56回応用物理学関係連合講演会. 2009
  5. 志波 光晴, 植竹 一蔵, 山脇 寿, 糸崎 秀夫, 何 東風, 立木 実, 森谷信一, 黒須明英, 沖田耕一. ECTによる燃焼器の欠陥検出、損傷評価の基礎検討. 安全・安心な社会を築く先進材料・非破壊計測技術シンポジウム. 2009
2008
  1. 何 東風, 立木 実, 糸崎 秀夫. NDE using hand-held high-Tc SQUID. 第13回SQUID研究会.doc. 2008
  2. TACHIKI, Minoru, HAYASHI, Tadayuki, HE, Dongfeng, ITOZAKI, Hideo. STM-SQUID hybrid microscope using rf SQUID magnetometer. 16th International Colloquium on Scanning Probe Microscopy. 2008
  3. HE, Dongfeng, TACHIKI, Minoru, ITOZAKI, Hideo. Non Destructive Evaluation Using High-Tc SQUID for Detecting Defects below a Metal Layer. 21st International Symposium on Superconductivity (ISS2008). 2008
  4. TACHIKI, Minoru, HAYASHI, Tadayuki, HE, Dongfeng, ITOZAKI, Hideo. STM-SQUID Probe Microscope using rf SQUID sensors. 第21回国際超電導シンポジウム(ISS2008). 2008
  5. 糸崎 秀夫, 立木 実, 林 忠之, 何 東風. RF SQUIDマグネトメータによるSTM-SQUIDプローブ顕微鏡. Applied Superconductivity Conference (ASC2008). 2008
2007
  1. HE, Dongfeng, TACHIKI, Minoru, ITOZAKI, Hideo. Nitrogen-14 NQR Using High-Tc rf SQUID . KSS meeting. 2007
  2. 立木 実, 何 東風. SQUIDを用いたNQRによる化学物質検出. 応用物理学会超伝導分科会主催第35回研究会. 2007
  3. HE, Dongfeng, TACHIKI, Minoru, ITOZAKI, Hideo. NQR of p-nitrotoluene using a high-TC rf SQUID with normal metal transformer. The 13th International Superconductive Electronics Conference. 2007
  4. 何 東風, 立木 実, 糸崎 秀夫, 端 健二郎, 清水 禎. HTS rf SQUIDを用いたN-14 NQR. 2007年春季 第54回応用物理学関係連合講演会. 2007
2006
  1. 立木 実, 何 東風, 糸崎 秀夫. NQR探知技術へのSQUID応用. 日本学術振興会146委員会SQUID分科会研究会. 2006
  2. HE, Dongfeng, TACHIKI, Minoru, ITOZAKI, Hideo. Normal Metal Transformer for High-Tc SQUID. 19th International Symposium on Superconductivity ISS2006. 2006
  3. HE, Dongfeng. High-Tc SQUID based NDE. Close report to researchers and students in laboratory. 2006
  4. HE, Dongfeng. High-Tc rf SQUID system with low noise and high bandwidth. Close report to researchers and students in laboratory. 2006
  5. 立木 実, 何 東風, 端 健二郎, 清水 禎, 糸崎 秀夫. SQUID-NQRを用いた化学物質のセンシング2. 2006秋季第67回応用物理学関係連合講演会. 2006
  6. 何 東風, 糸崎 秀夫, 立木 実, 小森 和範. HTS rf SQUID用の誘導体共振器のシミュレーション. 第53回春季応用物理学関係連合講演会. 2006
2005
  1. 立木 実, 何 東風, 太田 剛, 端 健二郎, 清水 禎, 林 忠之, 糸崎 秀夫. SQUID-NQRを用いた化学物質のセンシング. 2005秋季第66回応用物理学関係連合講演会. 2005
  2. Takayuki Simizu, HE, Dongfeng, Masahito Yoshizawa. Measurement of the magnetic shielding effect using the Mobile SQUID. 24th International Conference on Low Temperature Physics. 2005
  3. 何 東風. モバイルSQUID. 高性能SQUIDシステム分科会. 2005
  4. 何 東風, 糸崎 秀夫. 4MHz 高い帯域 HTS dc SQUIDシステムの開発. 第52回応用物理学関係連合講演会. 2005
2004
  1. 何 東風. High-Tc SQUID based NDE. 第6回 SQUID研究会. 2004
  2. 吉澤正人, HE, Dongfeng, 中居賢司, 小林宏一郎, 能登 宏七. Application of SQUIDs in Iwate CREATE project. ISS2004 (17th International Symposium on Superconductivity). 2004
  3. HE, Dongfeng, M. Yoshizawa, ITOZAKI, Hideo. Stable High-Tc rf SQUID NDE system operating in noisy environment. ISS2004 (17th International Symposium on Superconductivity). 2004
  4. 金哲, 清水隆行, 何 東風, 吉澤正人. 食品中の金属異物の非破壊的検出. 日本食品科学工学会. 2004
  5. 何 東風. SQUID応用非破壊検査研究成果報告. 第5回SQUID研究会. 2004
  6. 清水隆行, 何 東風, 吉澤正人. 食品へのMRI・SQUIDを用いた非破壊検査研究紹介. 第3回食品磁気科学応用研究会. 2004
  7. 清水隆行, 何 東風, 吉澤正人. Mobile SQUID による磁気シールドルーム遮蔽特性計測の試み. 応用物理学関係連合講演会. 2004

特許 TSV

登録特許
  1. 特許第6905745号 鉄筋腐食検出システム (2021)
  2. 特許第6843430号 鉄筋コンクリートの鉄筋径とかぶりの測定装置 (2021)
  3. 特許第5083744号 超伝導量子干渉素子用電子回路及びそれを用いた装置 (2012)
公開特許出願
  1. 特開2020197479号 小型で超高感度の磁気インピーダンスセンサ、及びこれを用いた非破壊検査装置 (2020)
  2. 特開2018009862号 鉄系材料位置検出装置 (2018)
  3. 特開2015133397号 マグネトインピーダンスを用いた磁気センサー素子 (2015)
  4. 特開2006258564号 超伝導量子干渉素子用電子回路 (2006)
外国特許

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