目的:建立脉冲微波辐射场特性参数的检测与评价方法,为剂量学和生物效应研究提供基础数据。
Objective: To establish methods of measurement and evaluation of the characteristics of pulsed microwave radiation field, and provide basic data for researches on dosimetry and biological effects.
本文从手机辐射对人体的生物效应入手,指出了研究微波与DNA分子作用的意义。
This paper starts from the biological effects of the mobile phone radiation to human body, and points out the significance of research of interaction between the microwaves and DNA molecule.
本文包含微波生物医学成像和雷电电磁效应评估两方面的研究内容。
The research contents of this thesis include two parts: microwave biomedical imaging and evaluation of lightning electromagnetic effects.
对MIECC反应中可能存在的耦合催化机理,即微波在生物催化体系中的“非热效应”进行了初步理论探讨,同时展望了这种新的耦合催化方法的前景。
The mechanism of MIECC, especially the microwave induced "athermal action" in bio catalysis systems is briefly discussed theoretically. The potential application of MIECC is prospected.
根据已有的微波生物非热效应的实验,应用量子力学推导出微波生物非热效应的公式。
A formula for athermal effect of bio-microwave is derived in terms of quantum mechanics.
根据已有的微波生物非热效应的实验,应用量子力学推导出微波生物非热效应的公式。
A formula for athermal effect of bio-microwave is derived in terms of quantum mechanics.
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