• Chisham, G., et al. (2007), A decade of the Super Dual Auroral Radar Network (SuperDARN): Scientific achievements, new techniques and future directions, Surv. Geophys., 28(1), 33109.
  • Custovic, E., H. Q. Nguyen, J. C. Devlin, J. Whittington, D. Elton, A. Console, H. Ye, R. A. Greenwald, D. A. Andre, and M. J. Parsons (2011a), Evolution of the SuperDARN antenna: Twin terminated folded dipole antenna for HF systems, in 2011 6th International Conference on Broadband and Biomedical Communications (IB2Com), pp. 2429,IEEE Xplore, Melbourne, Victoria, doi:10.1109/IB2Com.2011.6217936.
  • Custovic, E., A. J. McDonald, T. A. Kane, J. Vu, N. V. Whittington, and J. C. Devlin (2011b), Next generation of over the horizon HF radars and the determination of foF2 in real-time, in Proceedings of the 11th Australian Space Science Conference, Canberra, vol. 1, pp. 141156, National Space Society of Australia Ltd. Sydney, Australia.
  • Greenwald, R. A., et al. (1995), Darn/Superdarn: A global view of the dynamics of high-latitude convection, Space Sci. Rev., 71(1-4), 761796.
  • Ma, M. T. (1974), Theory and Application of Antenna Arrays, John Wiley, Hoboken, N. J.
  • Milan, S. E., T. B. Jones, T. R. Robinson, E. C. Thomas, and T. K. Yeoman (1997), Interferometric evidence for the observation of ground backscatter originating behind the CUTLASS coherent HF radars, Ann. Geophys., 15(1), 2939.
  • Ponomarenko, P. V., A. V. Koustov, J.-P. St.-Maurice, and J. Wiid (2011), Monitoring the F-region peak electron density using HF backscatter interferometry, Geophys. Res. Lett., 38, L21102, doi:10.1029/2011GL049675.
  • Sterne, K. T., R. A. Greenwald, J. B. H. Baker, and J. M. Ruohoniemi (2011), Modeling of a twin terminated folded dipole antenna for the Super Dual Auroral Radar Network (SuperDARN), in Radar Conference (RADAR), 2011 IEEE, pp. 934938, IEEE Xplore, Kansas City, Mo., doi:10.1109/RADAR.2011.5960673.