中文摘要：

传统的四线圈磁共振耦合无线传能系统已在移动电子设备、电动汽车无线充电中得以应用，然而，其传能效率仍然因其磁场空间分布的发散性而难以提高。为了克服上述缺点，我们提出了一种基于环磁美特材料、磁场更为局域的高效无线传能系统。该系统将四线圈系统中的一对磁谐振耦合线圈替换为具有环磁谐振特性的四个非对称开口谐振环。该环磁模式具有高Q值、低金属损耗以及辐射抑制的特性。实验结果表明，相对于四线圈系统，该系统的磁场更为集中，能量传输效率更高。

英文摘要：

Now, the traditional four-coil magnetic coupling systems have been used in the wireless charging of mobile electronic devices and electric vehicles. However, the system efficiency is difficult to improve due to the divergence of spatial distribution of magnetic field. To overcome this disadvantage, we propose an efficient system based on the toroidal metamaterials, which support a resonant electromagnetic mode that is dominated by the toroidal moment. The toroidal moment is produced by currents flowing on the surface of a torus along its meridian. It presents remarkable ability to localize the field and suppress the radiation. This new toroidal magnetic mode system （TMMS） consists of four asymmetric split resonant rings （ASRRs）. Pairs of ASRRs in the same unit （transmit unit and receiver unit） have mirror symmetry about the yz plane. Pairs of ASRRs in different units have 180？ rotational symmetry about the x axis. These four rings support the toroidal magnetic resonant mode （dominated by toroidal moment）. For comparison, we also construct two symmetric split resonant rings to imitate the four-coil system （FCS）. It supports parallel magnetic mode （dominated by magnetic dipole moment） and antiparallel magnetic mode （dominated by magnetic dipole moment and magnetic quadrupole moment）. To confirm the improvement of efficiency, we compare the transmission of the TMMS with that of the FCS at the same transfer distance （10 mm）. The TMMS presents a higher transmission and the increase in simulation （experiment） is 81%（40%）. The toroidal magnetic mode in the TMMS also exhibits low metal loss, which is reflected in these spectra. The simulated distributions of magnetic field line corresponding to the resonantly magnetic modes in both systems are provided in this article. Instead of divergence in FCS, the magnetic field lines of TMMS are well constrained around the four rings and form closed loops along these rings. The density of the field line and the magnitude of field near the r