| No. |
著者 |
文献情報 |
|
1
|
Michelant L, Baz T, Carrie A, Hugueville L, Lévêque P, Selmaoui B |
Millimeter-wave high frequency 5G (26 GHz) electromagnetic fields do not modulate human brain electrical activity
ミリ波高周波5G(26 GHz)電磁界はヒトの脳の電気活動を変調させない
Environ Res 2026
|
|
2
|
Murthy GPP, Varadarajan GS |
Measurement of Electromagnetic Fields Exposure to Humans from Electric Vehicles and Their Supply Equipment
電気自動車およびその電源装置から人体への電磁界ばく露の測定
Measurement 2026
|
|
3
|
Chapman ECN, Rochas CMV, Burns Z, Harsányi P, Hermans A, Scott K |
Effects of electromagnetic fields on flatfish activity levels
電磁界がカレイの活動レベルに及ぼす影響
Mar Pollut Bull 2026
|
|
4
|
Mirekhtiary F, Abbasi A, Maden S |
Frequency-dependent electromagnetic energy absorption and thermal gradients in human skin layers
ヒトの皮膚層における周波数依存の電磁エネルギー吸収と温度勾配
J Microw Power Electromagn Energy 2025
|
|
5
|
Di Gravio C, Elliott P, Muller DC |
Personal radio use and risk of cancers among police officers in Great Britain: Results from the airwave health monitoring study
英国における警察官の個人用無線の使用とがんのリスク:電波健康モニタリング研究からの結果
Int J Cancer 2025
|
|
6
|
Foster KR, Diao Y, Chou CK |
Acoustic Pressures in the Head From Pulsed Microwaves: Can They Explain “Anomalous” Health Incidents?
パルスマイクロ波による頭部の音圧:「異常な」健康被害を説明できるか?
IEEE Microw Mag 2025
|
|
7
|
Ohtani S, Ushiyama A, Wada K, Ikehata M, Suzuki Y, Hattori K |
Development and validation of an in vivo pain assessment method for 28-day exposure to intermediate frequency magnetic fields
中間周波磁界への28日間ばく露に対するイン・ビボ疼痛評価法の開発と検証
J Radiat Res 2025
|
|
8
|
Mehta J, Khira R, Fumakiya S, Sharma P, Punekar A, Jain C, Uggini GK |
From adults to offspring: Wi-Fi RF-EMR exposure in adult zebrafish impairs reproduction and transgenerationally effects development and behavior of progeny
成体から仔へ:ゼブラフィッシュ成魚のWi-Fi高周波電磁放射ばく露は生殖能力を損ない、仔の発達と行動に世代を超えて影響を及ぼす
Sci Total Environ 2025
|
|
9
|
著者の記述なし |
IEC/IEEE International Draft Standard for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Body from Wireless Communication Devices, 100 kHz to 10 GHz - Part 4: General requirements for using the finite element method for SAR calculations
IEC/IEEE国際規格草案 – ワイヤレス通信デバイスからの人体のピーク空間平均比吸収率(SAR)の決定、100 kHz-10 GHz - パート4:SAR計算に有限要素法を用いるための一般的要件
International Electrotechnical Commission (IEC), Institute of Electrical and Electronics Engineers (IEEE) 2025
|
|
10
|
Kaspranski RR, Binhi VN, Koshel IV |
Human Responses to Magnetic and Hypomagnetic Fields: Available Evidence and Potential Risks for Deep Space Travel
磁界と低磁界に対するヒトの反応:利用可能な証拠と深宇宙旅行の潜在的リスク
Life 2025
|
