@misc{Zh._Baghdasaryan_Visualization,
 author={Zh. Baghdasaryan and Babajanyan, A. and L. Odabashyan and H. Lee and B. Friedman and K. Lee},
 howpublished={online},
 abstract={This review highlights advances toward non-destructive thermo-elastic optical indicator microscopy visualization system, with a particular focus placed on the structural type of the optical indicator. We present the electromagnetic field interaction with a thin electrical conductive layer of mesh-patterned ITO which is used as an optical indicator. Depending on the mesh-pattern orientation and electromagnetic field polarization, the microwave heating mechanism and field distribution are different. Visualization was made with a 12 GHz microwave signal and 35 dBm maximum power.},
 title={Visualization of Microwave Heatingformesh-Patterned Indium-tin-Oxide by a Thermo-Elastic Optical Indicator Microscope},
 type={Հոդված},
 keywords={Physics, Materials science, Electronics; radiowave and microwave technology; direct energy conversion and storage},
}