Title :
Broadband Microwave Attenuator Based on Few Layer Graphene Flakes
Author :
Pierantoni, Luca ; Mencarelli, Davide ; Bozzi, Maurizio ; Moro, Riccardo ; Moscato, Stefano ; Perregrini, Luca ; Micciulla, Federico ; Cataldo, Antonino ; Bellucci, Stefano
Author_Institution :
Dept. of InformationEngineering, Polytech. Univ. of Marche, Ancona, Italy
Abstract :
This paper presents the design and fabrication of a broadband microstrip attenuator, operating at 1-20 GHz, based on few layer graphene flakes. The RF performance of the attenuator has been analyzed in depth. In particular, the use of graphene as a variable resistor is discussed and experimentally characterized at microwave frequencies. The structure of the graphene-based attenuator integrates a micrometric layer of graphene flakes deposited on an air gap in a microstrip line. As highlighted in the experiments, the graphene film can range from being a discrete conductor to a highly resistive material, depending on the externally applied voltage. As experimental evidence, it is verified that the application of a proper voltage through two bias tees changes the surface resistivity of graphene, and induces a significant change of insertion loss of the microstrip attenuator.
Keywords :
air gaps; attenuators; conductors (electric); electrical resistivity; graphene; microstrip lines; microwave devices; resistors; air gap; broadband microwave attenuator; discrete conductor; frequency 1 GHz to 20 GHz; graphene film; graphene flake; insertion loss; micrometric layer; microstrip attenuator; microstrip line; microwave frequency; resistive material; surface resistivity; variable resistor; Attenuators; Electrical resistance measurement; Graphene; Insertion loss; Loss measurement; Microstrip; Voltage measurement; Graphene; microstrip lines; nanoelectronics; tunable microwave (MW) devices;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2015.2441062
