@article{rozzi_dirac-based_2022,
	title = {Dirac-Based Quantum Admittance of 2D Nanomaterials at Radio Frequencies},
	volume = {12},
	issn = {2076-3417},
	url = {https://www.mdpi.com/2076-3417/12/24/12539},
	doi = {10.3390/app122412539},
	abstract = {Starting from a rigorous finite mass, Dirac equation-based model, we investigate the R.F. quantum admittance of a monolayer 2D material under the action of an electromagnetic (e.m.) wave with axially directed vector potential. With some reasonable approximations, the analysis yields a relatively simple {RLC}-equivalent circuit with frequency-independent elements depending on the bias, temperature, effective mass, Fermi velocity and effective e.m. index of the material, losses and other relevant parameters.},
	pages = {12539},
	number = {24},
	journaltitle = {Applied Sciences},
	shortjournal = {Applied Sciences},
	author = {Rozzi, Tullio and Mencarelli, Davide and Zampa, Gian Marco and Pierantoni, Luca},
	urldate = {2022-12-09},
	date = {2022-12-07},
	langid = {english},
}