department of Electrical Engineering, University of California at Los Angeles, Los Angeles, CArn90095;
department of Chemistry, University of Washington, Seattle, WA USA 98195-1700;
department of Chemistry, University of Washington, Seattle, WA USA 98195-1700;
department of Chemistry, University of Washington, Seattle, WA USA 98195-1700;
department of Chemistry, University of Washington, Seattle, WA USA 98195-1700;
et al;
Metamaterials; plasmonic materials; organic electro-optic materials; crystal growth; sequential synthesis; self-assembling materials; electric field poling; optical loss; bandwidth limitations; dimensionality effects; polymers; dendrimers;
机译:基于近零归零非线性超材料的具有存储和功率开关功能的全光有源等离子体激元器件
机译:主动泵浦宿主介质和等离子体纳米激光中的磁性等离子体超材料
机译:从主动等离子体器件到等离子体分子电子
机译:主动等级和超材料和器件
机译:等离子和超材料应用的新材料和设备。
机译:亚波长核/壳圆柱纳米结构用于新型等离子体和超材料器件
机译:具有存储器和电源开关的全光学有源等离子体装置 基于epsilon-near-zero非线性超材料的功能
机译:利用改进的材料解锁新物理并启用等离子体和超材料器件。