J
J. Patrick Reilly
Researcher at Johns Hopkins University
Publications - 30
Citations - 1278
J. Patrick Reilly is an academic researcher from Johns Hopkins University. The author has contributed to research in topics: Electric field & Voltage. The author has an hindex of 16, co-authored 30 publications receiving 1105 citations. Previous affiliations of J. Patrick Reilly include Johns Hopkins University Applied Physics Laboratory.
Papers
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Book
Applied Bioelectricity: From Electrical Stimulation to Electropathology
TL;DR: The subject of the book is the reaction of biological systems, and in particular the human body, to electricity (and also to magnetic fields by virtue of their ability to induce currents), which assumes a basic, as opposed to specialist, knowledge of both physics and physiology.
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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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Sensory Effects of Transient Electrical Stimulation - Evaluation with a Neuroelectric Model
TL;DR: The model predicts lower thresholds for cathodal than for anodal stimulation: the predicted degree of polarity selectivity is confirmed by direct stimulation of axons in animal experiments, but is at variance with the selectivity found in human transcutaneous stimulation.
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Principles of nerve and heart excitation by time-varying magnetic fields.
TL;DR: The design of future MRI devices may need to include certain constraints if one wishes to avoid excitatory responses in the exposed subject, and the biological and physical principles through which these responses may be understood are reviewed.
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Electric and Magnetic Field Coupling from High Voltage AC Power Transmission Lines -- Classification of Short-Term Effects on People
TL;DR: In this article, a summary of the state of knowledge concerning electrical stimulation is presented, including data on spark discharges that are published here for the first time, and issues are identified where further research is needed.