Such an excellent explanation, Sir. Thanks a lot for your detail. I want to make a model for transmission and reflection purposes simultaneously using graphene, but how do I place the layers of materials with a PET substrate? Should I use Electrolyte along all? Please help me in the best possible way. Thanks Again.
I have started my PHD in Antenna in USA recently. Your content is very helpful which I didn't understand after reading a lot of papers. I am confused about one thing that how the negative permittivity and permeability and negative refractive index is actually increasing the antenna's gain and bandwidth ?
How we differentiate between FSS and metasurfaces? Is it the unit cell size or what? Because both of them can work in either complete reflection or transmission-reflection mode
This is a very important topic, and I hope you will continue with such explanations.Thanks
Thank you, I will
Such an excellent explanation, Sir. Thanks a lot for your detail. I want to make a model for transmission and reflection purposes simultaneously using graphene, but how do I place the layers of materials with a PET substrate? Should I use Electrolyte along all? Please help me in the best possible way. Thanks Again.
I have started my PHD in Antenna in USA recently. Your content is very helpful which I didn't understand after reading a lot of papers. I am confused about one thing that how the negative permittivity and permeability and negative refractive index is actually increasing the antenna's gain and bandwidth ?
Hi could you please share your queries to lingasamyap@gmail.com.
How we differentiate between FSS and metasurfaces? Is it the unit cell size or what? Because both of them can work in either complete reflection or transmission-reflection mode
Same unit cell can be used for both. FSS and metasurface is a concept that can employ any unit cell like simple square patch or cross dipole
@@drlingasamyveluchamyphd thank you Sir. Can you please teaches us how can we draw equivalent circuit of a metasurface