论文信息 - Impacts of dimensions, number of layers and contact structures on the loss of graphene-based coplanar waveguides through simulations

Impacts of dimensions, number of layers and contact structures on the loss of graphene-based coplanar waveguides through simulations

We present modeling and simulations of graphene coplanar waveguide (GCPW) under the frequency up to 50 GHz. Our simulation results show that the dimensions of GCPW greatly influence its insertion loss. In addition, different graphene layer numbers and structures of graphene-metal contact were also considered. We show that the usage of few-layer graphene and end-contact structure is able to decrease the insertion loss, which helps improve the radio-frequency performance of graphene coplanar waveguide.

[1] V. Kumar,et al. Analytical models for the frequency response of multi-layer graphene nanoribbon interconnects , 2012, 2012 IEEE International Symposium on Electromagnetic Compatibility.

[2] L. Leung,et al. Low-loss coplanar waveguides interconnects on low-resistivity silicon substrate , 2004, IEEE Transactions on Components and Packaging Technologies.

[3] Joerg Appenzeller,et al. Screening and interlayer coupling in multilayer graphene field-effect transistors. , 2009, Nano letters.

[4] Vahid Nayyeri,et al. Modeling Graphene in the Finite-Difference Time-Domain Method Using a Surface Boundary Condition , 2013, IEEE Transactions on Antennas and Propagation.

[5] Ru Huang,et al. RF Transmission Properties of Graphene with Coplanar Waveguide Structure , 2014 .

[6] V. Gusynin,et al. Magneto-optical conductivity in graphene , 2007, 0705.3783.

[7] K. Novoselov,et al. A roadmap for graphene , 2012, Nature.

[8] Hoang V. Nguyen,et al. 110 GHz measurement of large-area graphene integrated in low-loss microwave structures , 2011 .

[9] M. Dragoman,et al. Coplanar waveguide on graphene in the range 40 MHz–110 GHz , 2011 .