TIFAC-center of Relevance and Excellence in Fiber Optics and Optical Communication, Department of Applied Physics, Delhi Technological University (Delhi College of Engineering, University of Delhi), Bawana Road, Delhi-110042, India;
TIFAC-center of Relevance and Excellence in Fiber Optics and Optical Communication, Department of Applied Physics, Delhi Technological University (Delhi College of Engineering, University of Delhi), Bawana Road, Delhi-110042, India;
TIFAC-center of Relevance and Excellence in Fiber Optics and Optical Communication, Department of Applied Physics, Delhi Technological University (Delhi College of Engineering, University of Delhi), Bawana Road, Delhi-110042, India;
TIFAC-center of Relevance and Excellence in Fiber Optics and Optical Communication, Department of Applied Physics, Delhi Technological University (Delhi College of Engineering, University of Delhi), Bawana Road, Delhi-110042, India,CSIR-Central Scientific Instruments Organisation, Sector 30 C, Chandigarh-160 030, India;
Dielectric nanoparticles; magnetic resonance;
机译:椭圆形金属/介电纳米颗粒的复合物中诱导的光学双稳态
机译:嵌入均匀介电介质中的单层多分散椭圆形纳米颗粒的高级光学有效介质建模:表面等离子体共振
机译:电磁感应的透明性,其电磁场附近耦合到共振的共振会引起较大的延迟带宽积
机译:椭圆型纳米粒子中的多极光学诱导的电和磁共振
机译:闭通道电磁感应的透明度对Feshbach共振的光学控制。
机译:多元醇发光和超顺磁性β-NaY0.8Eu0.2F4@γ-Fe2O3核-卫星纳米粒子用于双磁共振和光学成像。
机译:介电芯的椭圆形金属/介电纳米粒子复合中的诱导光学双稳定性
机译:Inp纳米粒子的连续和时间分辨光学检测磁共振研究。