1Kurs A, Karalis A, Moffatt R, et al. Wireless power transfer via strongly coupled magnetic resonances[J]. Science, 2007(317): 83-86.
2Karalis A, Joannopoulos D, Soljacic M. Efficient wireless non-radiative mid-range energy transfer[J]. Annals of Physics, 2008(323): 34-48.
3Lixin Situ. Electric vehicle development: the past, present & future[C]//2009 3rd International Conference on Power Electronics Systems and Applications, Hong Kong, China: PESA2009: 1-3.
4Villa J L, Llombart A, Sanz F J. Optimal design oflCPT systems applied to electric vehicle battery charge[J]. IEEE Transactions on Industrial Electronics, 2009, 56(6)- 2140-2149.
5Imura T, Hori Y. Maximizing air gap and efficiency of magnetic resonant coupling for wireless power transfer using equivalent circuit and neumann formula[J]. IEEE Trans. on Industrial Electronics, 2011,58(10).. 4746-4752.
6Sedwick R J. Long range inductive power transfer with superconducting oscillators[J]. Annals of Physics, 2010, 325(2): 287-299.
7Hamam RafifE, Aristeidis K, Joannopoulos J D, et al. Efficient weakly-radiative wireless energy transfer: an EIT-likeapproach[J]. Annals of Physics, 2009, 324(8): 1783-1795.
8Zhang F, Hackworth S A, Fu W, et al. Relay effect of wireless power transfer using strongly coupled magnetic resonances[J]. IEEE Trans. on Magnetics, 2011, 47(5): 1478-1481.
9Kim J, H -C Son, K-H Kim, et al. Efficiency analysis of magnetic rsonance wireless power transfer with intermediate resonant coil[J]. IEEE Antennas Wireless Propag Lett., 2011(10): 389-392.
10Anand A Trikolikar, Dr Sanjay L. Nalbalwar, Lt Milind P Bhagat. Review of wireless power transmission by using strongly coupled magnetic resonance[C]//Intemational Journal of Advanced Engineering & Application. 2010: 177-181.
