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International Journal of Electronics Letters Volume 3, 2015 - Issue 1
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Original Articles

Harmonic and intermodulation performance of graphene-based analog electronic circuits

Muhammad Taher Abuelma’attiKing Fahd University of Petroleum and Minerals, Box 203, Dhahran31261, Saudi ArabiaCorrespondence[email protected]
Pages 45-57 | Received 14 May 2013, Accepted 16 Mar 2014, Published online: 29 Apr 2014

References

  • Abuelma’atti, M. T. (1993). A simple algorithm for fitting measured data to Fourier-series models. International Journal of Mathematical Education in Science and Technology, 24, 107–112. doi:10.1080/0020739930240114
  • Abuelma’atti, M. T. (1994), Simple method for calculating Fourier coefficients of experimentally obtained waveforms. Proceedings IEE-Science Measurement, Technology, 141, 177–178.
  • Andersson, M. A., Habibpour, O., Vukusic, J., & Stake, J. (2012). 10 db small-signal graphene FET amplifier. Electronics Letters, 48, 861–862. doi:10.1049/el.2012.1347
  • Bolotin, K. I., Sikes, K. J., Jiang, Z., Klima, M., Fudenberg, G., Hone, J., … Stormer, H. L. (2008). Ultrahigh electron mobility in suspended graphene. Solid State Communications, 146, 351–355. doi:10.1016/j.ssc.2008.02.024
  • Chen, H.-Y., & Appenzeller, J. (2012). On the voltage gain of complementary graphene voltage amplifiers with optimized doping. IEEE Electron Device Letters, 33, 1462–1464. doi:10.1109/LED.2012.2207084
  • Dragoman, M., Neculoiu, D., Dragoman, D., Deligeorgis, G., Konstantinidis, G., Cismaru, A. … Plana, R. (2010). Graphene for microwaves. IEEE Microwave Magazine, 11(7), 81–86. doi:10.1109/MMM.2010.938568
  • Guerriero, E., Polloni, L., Rizzi, L. G., Bianchi, M., Mondello, G., & Sordan, R. (2012). Graphene audio voltage amplifier. Small, 8, 357–361. doi:10.1002/smll.201102141
  • Habibpour, O. (2012). Graphene FETs in microwave applications ( Ph.D. Thesis). Chalmers University of Technology, Goteborg.
  • Habibpour, O., Cherednichenko, S., Vukusic, J., Yhland, K., & Stake, J. (2012). A subharmonic graphene FET mixer. IEEE Electron Device Letters, 33, 71–73. doi:10.1109/LED.2011.2170655
  • Harada, N., Yagi, K., Sato, S., & Yokoyama, N. (2010). A polarity-controllable graphene inverter. Applied Physics Letters, 96, 012102-1012102–3. doi:10.1063/1.3280042
  • Jimenez, D., & Moldovan, O. (2012, March 6–7). Theory of graphene-field effect transistors. Proceedings of the 13th International Conference on Ultimate Integration on Silicon, Grenoble (pp. 93–95).
  • Moon, J., Seo, H.-C., Antcliffe, M., Lin, S., McGuire, C., Le, D., … Asbeck, P. (2012). Graphene FET-based zero-bias RF to millimeter-wave detection. IEEE Electron Device Letters, 33, 1357–1359. doi:10.1109/LED.2012.2210184
  • Palacios, T., Hsu, A., & Wang, H. (2010). Applications of graphene devices in RF communications. IEEE Communications Magazine, 48, 122–128. doi:10.1109/MCOM.2010.5473873
  • Reddy, D., Register, L. F., Carpenter, G. D., & Banerjee, S. K. (2011). Graphene field-effect transistors. Journal of Physics D: Applied Physics, 44, 20pp., article no. 313001. doi:10.1088/0022-3727/44/31/313001
  • Sagar, A., Balasubramanian, K., Burghard, M., Kern, K., & Sordan, R. (2011). Polymer-electrolyte gated graphene transistors for analog and digital phase detection. Applied Physics Letters, 99, 043307–1/043307-3. doi:10.1063/1.3615247
  • Wang, H., Hsu, A., Kim, K. K., Kong, J., & Palacios, T. (2010, December), Gigahertz ambipolar frequency multiplier based on CVD graphene. IEEE International Electronic Devices Meeting, San Francisco, CA (pp. 23.6.1–23.6.4).
  • Wang, H., Hsu, A., Wu, J., Kong, J., & Palacios, T. (2010). Graphene-based ambipolar RF mixers. IEEE Electron Device Letters, 31, 906–908. doi:10.1109/LED.2010.2052017
  • Wang, H., Nezich, D., Kong, J., & Palacios, T. (2009). Graphene frequency multipliers. IEEE Electron Device Letters, 30, 547–549. doi:10.1109/LED.2009.2016443
  • Wang, Z., Zhang, Z., Xu, H., Ding, L., Wang, S., & Peng, L.-M. (2010). A high performance top-gate graphene field-effect transistor based frequency doubler. Applied Physics Letters, 96, 173104-1–173104-3. doi:10.1063/1.3413959
  • Wu, Y., Jenkins, K. A., Valdes-Garcia, A., Farmer, D. B., Zhu, Y., Bol, A. A., … Lin, Y.-M. (2012). State-of-the art graphene high-frequency electronics. Nano Letters, 12, 3062–3067. doi:10.1021/nl300904k
  • Wu, Y. Q., Ye, P. D., Capano, M. A., Xuan, Y., Sui, Y., Qi, M., … Reifenberger, R. (2008). Top-gated graphene field-effect-transistors formed by decomposition of SiC. Applied Physics Letters, 92, 092102-1/3. doi:10.1063/1.2889959
  • Yang, X., Liu, G., Balandin, A. A., & Mohanram, K. (2010). Triple-mode single-transistor graphene amplifier and its applications. ACS Nano, 4, 5532–5538. doi:10.1021/nn1021583
  • Yang, X., Liu, G., Rostami, M., Balandin, A. A., & Mohanram, K. (2011). Graphene ambipolar multiplier phase detector. IEEE Electron Device Letters, 32, 1328–1330. doi:10.1109/LED.2011.2162576

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