逆楞次定律效应的发现与验证(修订版)
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摘要
提出了一种工作在超低频段表现出逆楞次定律效应的结构,该结构由高磁导率材料和串联谐振回路组成。当工作频率f大于谐振频率f0时,此结构表现出等效负磁导率效应;当工作频率f小于谐振频率f0时,此结构表现出逆楞次定律效应。基于电磁感应定律的理论分析与实验的验证结果一致。该结构等价于宏观的电磁超材料单元,其超低频、逆楞次定律效应将在新型高效变压器设计、超低频输供电等领域获得广泛应用。
A structure working in the ultra-low-frequency is put forward to show the inverse Lenz's law effect. The structure is composed of high magnetic permeability material and series resonant circuit. When the input frequency f is greater than the resonance frequency f_0, this structure exhibits the equivalent negative permeability characteristics; when the input frequency f is less than the resonant frequency f_0, this structure exhibits the effect of the inverse of Lenz's law. Theoretical analysis of the law of electromagnetic induction is consistent with the erperimental results. The structure is equivalent to the macroscopic electromagnetic metamaterial unit. Thus its ultra-low-frequency inverse Lenz's law effect will be widely applied in the field of new high efficiency transformer design, ultra-low frequency transmission and distribution.
A structure working in the ultra-low-frequency is put forward to show the inverse Lenz's law effect. The structure is composed of high magnetic permeability material and series resonant circuit. When the input frequency f is greater than the resonance frequency f_0, this structure exhibits the equivalent negative permeability characteristics; when the input frequency f is less than the resonant frequency f_0, this structure exhibits the effect of the inverse of Lenz's law. Theoretical analysis of the law of electromagnetic induction is consistent with the erperimental results. The structure is equivalent to the macroscopic electromagnetic metamaterial unit. Thus its ultra-low-frequency inverse Lenz's law effect will be widely applied in the field of new high efficiency transformer design, ultra-low frequency transmission and distribution.
引文
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[2]刘晓旭,王选章.左手材料的性质及研究动态.长春大学:长春大学学报,2006,16(5).
[3]郭云胜.从电磁感应定律看负磁导率的产生过程.大学物理,2011,30(9).
[4]韩腾,卓放,等.非接触电能传输系统频率分叉现象研究.电工电能新技术,2005,24(2).
[5]周治平.时空论.前沿科学,2011,6(20).
[6]周治平.自发吸收原理.前沿科学,2012,6(21).
[7]周治平.电磁能量放大现象.前沿科学,2012,6(22).
[8]周治平.逆楞次定律效应的发现与验证.前沿科学,2013,7(25).
[2]刘晓旭,王选章.左手材料的性质及研究动态.长春大学:长春大学学报,2006,16(5).
[3]郭云胜.从电磁感应定律看负磁导率的产生过程.大学物理,2011,30(9).
[4]韩腾,卓放,等.非接触电能传输系统频率分叉现象研究.电工电能新技术,2005,24(2).
[5]周治平.时空论.前沿科学,2011,6(20).
[6]周治平.自发吸收原理.前沿科学,2012,6(21).
[7]周治平.电磁能量放大现象.前沿科学,2012,6(22).
[8]周治平.逆楞次定律效应的发现与验证.前沿科学,2013,7(25).