超常介质是一种纳米尺度的人工复合材料,可以同时设定材料的介电常数和磁导率.利用超常介质的这一特性,能够自由地调整光的传播路径.在此基础上,应用坐标转换的方法,计算出圆柱形和椭圆柱形的介电常数和磁导率分布.让光在介质内沿着特定的轨迹传播,绕过包围的空腔,沿入射的方向出射,从而实现圆柱和椭圆柱形状的隐形.
参考文献
[1] | Schurig D;Mock JJ;Justice BJ;Cummer SA;Pendry JB;Starr AF;Smith DR .Metamaterial electromagnetic cloak at microwave frequencies[J].Science,2006(5801):977-980. |
[2] | Gabrielli, LH;Cardenas, J;Poitras, CB;Lipson, M .Silicon nanostructure cloak operating at optical frequencies[J].Nature photonics,2009(8):461-463. |
[3] | Shalaev VM .Optical negative-index metamaterials[J].Nature photonics,2007(1):41-48. |
[4] | Plum E;Zhou J;Dong J et al.Metamaterial with negative index due to chiarlity[J].Physical Review B:Condensed Matter,2009,79(03):035407. |
[5] | Padilla WJ;Taylor AJ;Highstrete C;Lee M;Averitt RD .Dynamical electric and magnetic metamaterial response at terahertz frequencies[J].Physical review letters,2006(10):7401-1-7401-4-0. |
[6] | Yen T J;Padilla W J;Fang N et al.Terahertz magnetic response from artificial materials[J].Science,2004,303(5663):1494. |
[7] | Pendry, JB;Schurig, D;Smith, DR .Controlling electromagnetic fields[J].Science,2006(5781):1780-1782. |
[8] | Hu T;Landy N I;Fan K.Flexible terahertz metamaterials:Towards a terahertz metamaterial invisible cloak[A].,2008 |
[9] | Wood B;Pendry JB .Metamaterials at zero frequency[J].Journal of Physics. Condensed Matter,2007(7):76208-1-76208-9-0. |
[10] | G. Dolling;M. Wegener;C. M. Soukoulis;S. Linden .Negative-index metamaterial at 780 nm wavelength[J].Optics Letters,2007(1):53-55. |
[11] | Stefan Linden L;Christian E;Martin W et al.Magnetic response of metamaterialst 100 terahertz[J].Science,2004,306(5700):1351. |
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