Arakawa Mototaka

アラカワモトタカ | Arakawa Mototaka

Affiliation and department：
Job title： Associate Professor
Homepage URL (2)： https://sites.google.com/tohoku.ac.jp/medical-us/ , http://www.ecei.tohoku.ac.jp/~hkanai/index_en.html

Research field (2)： Biomedical engineering , Measurement engineering

Research keywords (7)： blood property , 動脈硬化症 , 医用超音波工学 , Viscoelasticity , Acoustic Property , Ultrasonic Micro-Spectroscopy , Ultra-Precise Ultrasonic Measurement

Research theme for competitive and other funds (21)：

2000 - 現在 Study on the Accurate Ultrasonic Metrology
2024 - 2027 Study on the correlation between red blood cell aggregation and diabetic vascular complications by measuring ultrasonic backscatter characteristics
2023 - 2026 Research on optimization of low-intensity ultrasonic irradiation conditions for ultrasonic therapy to activate self-healing power
2021 - 2024 A study on measurement method of viscoelastic property of blood vessel wall aiming at early diagnosis of arteriosclerosis
2020 - 2023 Ultrasonic visualization of thoracic vertebrae for supporting epidural anesthesia

2019 - 2022 Early diagnosis of atherosclerosis by accurate ultrasonic measurement of surface roughness of internal elastic membrane

2019 - 2022 Ultrasonic visualization of propagation of electrical excitation causing contraction by measuring human myocardial response

2018 - 2021 Basic study on high-accuracy acoustic property measurements of biological specimens by ultrasonic microscopy

2016 - 2018 Development of photoacoustic flow cytometry by employing multi-channel high frequency ultrasonic probe

2014 - 2017 UMS技術による強化ガラス評価法の研究

2013 - 2015 Development of an optical cavity with residual strain free for optical frequency standards

2011 - 2014 Ultrasonic Microspectroscopy of Wide Bandgap Semiconductor Materials

2011 - 2013 Development of evaluation method of glass materials by the UMS technology

2011 - 2012 Evaluation of glass thin films by the ultrasonic microspectroscopy technology

2008 - 2009 Precise Evaluation of Zero-CTE Temperature of Ultra-Low-Expansion Glass Using the Line-Focus-Beam Ultrasonic Material Characterization System

2006 - 2008 Development of Evaluation Method of High Quality Diamond Film for 10 GHz-Range Surface Acoustic Wave Device

2006 - 2007 微小結晶評価用マイクロLFB超音波プローブの開発

2003 - 2005 超音波スペクトロスコピーシステムによる異方性固体の音速、減衰の精密計測

2002 - 2004 次世代材料のための超音波顕微鏡の超高精度化に関する基礎的研究

2001 - 2002 Ultrasonic Microspectroscopy of Ultra-High-Quality Synthetic a-Quartz

2000 - 2002 Development of a Method to Evaluate the Surface of Single Crystal Substrates for Super-High-Frequency SAW Devices by UMS Technology

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Papers (163)：

Rina Takeyama, Shohei Mori, Nobuo Masauzi, Mototaka Arakawa, Satoshi Yashiro, Yasushi Ishigaki, Hiroshi KANAI. Estimation of red blood cell aggregation size using power spectrum considering density of red blood cells in focal region. Japanese Journal of Applied Physics. 2024
Yu Obara, Shohei Mori, Masumi Iwai-Takano, Mototaka Arakawa, Hiroshi Kanai. Influence of Power-Weighted Center of Echo Signal Within Window Function on Local Strain Rate Distribution in Left Ventricular Wall. Ultrasound in Medicine & Biology. 2024. 50. 5. 768-774
Shohei Mori, Mototaka Arakawa, Tadashi Yamaguchi, Hiroshi Kanai, Hiroyuki Hachiya. Appropriate indicator of modeling error for threshold-based model selection in statistics-based ultrasound tissue characterization. Japanese Journal of Applied Physics. 2024. 63. 5. 05SP03-05SP03
Yuya Komatsu, Shohei Mori, Mototaka Arakawa, Hiroshi Kanai. Method for measuring time waveforms of minute sinusoidal displacements using continuous waves with a network analyzer. Japanese Journal of Applied Physics. 2024. 63. 4. 048003-048003
Yuya Komatsu, Shohei Mori, Mototaka Arakawa, Hiroshi Kanai. A novel ultrasonic method for measuring minute sinusoidal displacement by network analyzer. Review of Scientific Instruments. 2024. 95. 2

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MISC (292)：

森翔平, 荒川元孝, 金井浩. 超音波を用いた生体内音速推定における血管の径と走行角度の影響. 超音波Techno. 2024. 36. 1
小原優, 森翔平, 政氏伸夫, 高野真澄, 高野真澄, 高野真澄, 高野真澄, 荒川元孝, 荒川元孝, 金井浩, et al. Ultrasound measurement of propagation velocity of myocardial contractile response to electrical excitation with high locality in transmural direction. 超音波医学 Supplement. 2024. 51
山根綾太, 森翔平, 荒川元孝, 荒川元孝, 金井浩, 金井浩. Ultrasonic measurement system of luminal surface roughness on carotid artery for early detection of atherosclerosis. 超音波医学 Supplement. 2024. 51
小松祐也, 森翔平, 荒川元孝, 荒川元孝, 金井浩, 金井浩. Estimation of viscoelastic properties by dual ultrasound excitation and displacement measurement method using network analyzer. 超音波医学 Supplement. 2024. 51
森翔平, TRAN Khoa, 荒川元孝, 荒川元孝, 金井浩, 金井浩, 小野雄. Examination of envelope statistics analysis of M-mode signals for pneumothorax detection. 超音波医学 Supplement. 2024. 51

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Patents (11)：

超音波断層画像の作成方法
強化ガラスの表面特性の測定方法
圧電単結晶/セラミック材料の音響関連物理定数決定方法、その方法を使った音響関連物理定数の温度係数決定方法及びその温度係数決定方法を使った最適結晶方位及び伝搬方向決定方法
光学ガラスの仮想温度の測定方法
シリカ・チタニアガラス及びその製造方法、線膨張係数測定方法

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Books (1)：

Acoustic keyword book
コロナ社 2016 ISBN:9784339008807

Professional career (3)：

Philosophy of Doctor (Tohoku University)
Master of Science (Tohoku University)
Bachelor of Science (Tohoku University)

Committee career (19)：

2024/06 - 現在日本超音波医学会理事
2024/04 - 現在超音波エレクトロニクスの基礎と応用に関するシンポジウム論文委員会委員
2024/04 - 現在 IEEE Ultrasonics Symposium, Technical Program Committe Member
2024/04 - 現在日本音響学会東北支部幹事
2023/06 - 現在電子情報通信学会和文論文誌C編集委員会和文論文誌編集委員

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Awards (9)：

2023/11 - 超音波エレクトロニクスの基礎と応用に関するシンポジウム運営委員会 Best Paper Award of USE2022
2022/09 - 電子情報通信学会基礎・境界ソサイエティ貢献賞(研究専門委員会運営)
2022/05 - The japan Society of Ultrasonics in Medicine 36th Kikuchi Award (The japan Society of Ultrasonics in Medicine) Low-complexity generalized coherence factor estimated from binarized signals in ultrasound beamforming
2022/03 - 日本音響学会第9回(2021年度)学会活動貢献賞
2021/05 - The japan Society of Ultrasonics in Medicine 35th Kikuchi Award (The japan Society of Ultrasonics in Medicine) Discrimination of thoracic spine from muscle based on their difference in ultrasound reflection and scattering characteristics

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Association Membership(s) (4)：

Institute of Electronics, Information and Communication Engineers , The Japan Society of Ultrasonics in Medicine , The Institute of Electrical an Electronics Engineers, Inc. , Acoustical Society of Japan

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