Evaluation of residential exposure to intermediate frequency magnetic fields.

Yoshika Kurokawa, Hiroshi Nitta, Michinori Kabuto
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引用次数: 6

Abstract

The authors measured the exposure to intermediate-frequency (IF: 10 kHz to 30 MHz) electromagnetic fields (EMF) in residential environments. They developed a system to acquire and record waveforms of IF magnetic fields (MFs) and set 5 nanotesla (nT) for the trigger level of acquisition. They operated the system near power lines, railroads, and electrical appliances as possible sources of IF-MFs. Most of the maximum values of magnetic flux density and the time derivative for each wave were below the upper limit of the measurable range of our system (i.e., 53 nT and 10 T/s); these values were much lower than the minimum amplitudes that can theoretically induce heating or membrane excitation within biological systems. Moreover, the amplitudes of the IF-MFs were not related to those of extremely low frequency (ELF) MF measured simultaneously, indicating that IF-MFs do not underlie the associations, observed in several epidemiological studies, between residential exposure to ELF-EMF and childhood cancer.

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中频磁场对居民暴露的评价。
作者测量了居住环境中频(中频:10千赫至30兆赫)电磁场(EMF)的暴露情况。他们开发了一个系统来获取和记录中频磁场(MFs)的波形,并设置了5纳米特斯拉(nT)作为触发采集的电平。他们在电力线、铁路和电器附近操作这个系统,因为它们可能是中频-中频的来源。磁通密度最大值和每波时间导数最大值大多低于系统可测范围的上限(即53 nT和10 T/s);这些值远远低于理论上可以在生物系统中引起加热或膜激发的最小振幅。此外,if -MF的振幅与同时测量的极低频(ELF) MF的振幅无关,这表明if -MF并不是几项流行病学研究中观察到的住宅暴露于ELF- emf与儿童癌症之间关联的基础。
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