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Akimasa Hirata
Researcher at Nagoya Institute of Technology
Publications - 367
Citations - 7227
Akimasa Hirata is an academic researcher from Nagoya Institute of Technology. The author has contributed to research in topics: Electric field & Specific absorption rate. The author has an hindex of 42, co-authored 341 publications receiving 5576 citations. Previous affiliations of Akimasa Hirata include National Institute of Information and Communications Technology & Victoria University, Australia.
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Synopsis of IEEE Std C95.1™-2019 “IEEE Standard for Safety Levels With Respect to Human Exposure to Electric, Magnetic, and Electromagnetic Fields, 0 Hz to 300 GHz”
William H. Bailey,Tim Harrington,Akimasa Hirata,Robert Rob Kavet,Jafar Keshvari,Bertram Jon Klauenberg,Alexandre Legros,David P. Maxson,John M. Osepchuk,J. Patrick Reilly,Richard A. Tell,Ralf Bodemann,Artnarong Thansandote,Kenichi Yamazaki,Marvin C. Ziskin,Peter M. Zollman,Jerrold T. Bushberg,Chung-Kwang Chou,Robert Cleveland,Antonio Faraone,Kenneth R. Foster,Kenneth E. Gettman,Kevin L. Graf +22 more
TL;DR: The newly released IEEE Std C95.1™-2019 defines exposure criteria and associated limits for the protection of persons against established adverse health effects from exposures to electric, magnetic, and electromagnetic fields in the frequency range 0 Hz to 300 GHz.
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Inter-subject Variability in Electric Fields of Motor Cortical tDCS
TL;DR: The variability in the electric fields is related to each individual's anatomical features and can only be controlled using detailed image processing, and age was found to have a slight negative effect on the electric field, which might have implications on tDCS studies on aging brains.
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Wireless Power Transfer Charging System for AIMDs and Pacemakers
TL;DR: In this article, the electric and magnetic field (EMF) safety aspects of a wireless power transfer (WPT) system based on magnetic resonant coupling between two coils are discussed.
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Temperature rises in the human eye exposed to EM waves in the frequency range 0.6-6 GHz
TL;DR: In this article, specific absorption rates (SARs) were calculated with the use of the finite-difference time-domain (FDTD) method and the mechanism of hot-spot formation was discussed.
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Effects of coil orientation on the electric field induced by TMS over the hand motor area.
TL;DR: The results support the hypothesis that the cortex is most sensitive to fields oriented perpendicular to the cortical layers, while it is relatively insensitive to fields parallel to them, which has important implications for targeting of TMS.