SEARCH

SEARCH BY CITATION

References

  • Capolino, F., and L. B. Felsen (2002), Frequency- and time-domain Green's functions for a semi-infinite periodic line array, IEEE Trans. Antennas Propag., 50, 3141.
  • Capolino, F., M. Albani, S. Maci, and L. B. Felsen (2000a), Frequency-domain Green's function for a planar periodic semi-infinite phased array. I. Truncated Floquet wave formulation, IEEE Trans. Antennas Propag., 48, 6774.
  • Capolino, F., M. Albani, S. Maci, and L. B. Felsen (2000b), Frequency-domain Green's function for a planar periodic semi-infinite phased array. II. Diffracted wave phenomenology, IEEE Trans. Antennas Propag., 48, 7585.
  • Capolino, F., S. Maci, and L. B. Felsen (2000c), Asymptotic high-frequency Green's function for a planar phased sectoral array of dipoles, Radio Sci., 35, 579593.
  • Capolino, F., S. Maci, M. Sabbadini, and L. B. Felsen (2001), Large phased arrays on complex platforms, paper presented at 2001 International Conference on Electromagnetism in Advanced Applications, Galilelo Avonica, Torino, Italy.
  • Carin, L., and L. B. Felsen (1992), Design-oriented parametrization of truncated periodic-strip gratings, IEEE Microwave Guided Wave Lett., 2, 367369.
  • Cicchetti, R., A. Faraone, and Q. Balzano (2003), A uniform asymptotic evaluation of the field radiated from collinear array antennas, IEEE Trans. Antennas Propag., 51, 89102.
  • Civi, O., P. Pathak, and H.-T. Chou (1999), On the Poisson sum formula for the analysis of wave radiation and scattering from large finite arrays, IEEE Trans. Antennas Propag., 47, 958959.
  • Civi, O. A., P. Pathak, H. Chou, and P. Nepa (2000), A hybrid uniform geometrical theory of diffraction-moment method for efficient analysis of electromagnetic radiation/scattering from large finite planar arrays, Radio Sci., 35, 607620.
  • Cucini, A., M. Albani, and S. Maci (2003), Truncated Floquet wave full-wave (T(FW)2) analysis of large phased arrays of open ended waveguides with a non uniform amplitude excitation, IEEE Trans. Antennas Propag., 51, 13861394.
  • Felsen, L. B., and L. Carin (1994), Diffraction theory of frequency- and time-domain scattering by weakly aperiodic truncated thin-wire gratings, J. Opt. Soc. Am. A Opt. Image Sci., 11, 12911306.
  • Felsen, L. B., and N. Marcuvitz (1994), Radiation and Scattering of Waves, Prentice-Hall, Upper Saddle River, N. J.
  • Ishimaru, A., R. J. Coe, G. E. Miller, and W. P. Geren (1985), Finite periodic structure approach to large scanning array problems, IEEE Trans. Antennas Propag., 33, 12131219.
  • Maci, S., F. Capolino, and L. B. Felsen (2001), Three-dimensional Green's function for planar rectangular phased dipole arrays, Wave Motion, 34, 263279.
  • Mariottini, F., F. Capolino, S. Maci, and L. B. Felsen (2005), Asymptotic high-frequency Green's function for a large rectangular planar periodic phased array of dipoles with weakly tapered excitation in two dimensions, IEEE Trans. Antennas Propag., 53, 608620.
  • Martini, E., A. Toccafondi, S. Maci, and R. Tiberio (2003), Floquet wave based diffraction approach for irregularly contoured planar phased arrays, IEEE Antennas Wireless Propag. Lett., 1, 246249.
  • Nepa, P., P. H. Pathak, O. A. Civi, and H.-T. Chou (1999), A DFT based UTD ray analysis of the EM radiation from electrically large antenna arrays with tapered distributions, paper presented at 1999 IEEE APS/URSI Symposium, Inst. of Electr. and Electron. Eng., Orlando, Fla.
  • Neto, A., S. Maci, G. Vecchi, and M. Sabbadini (2000a), A truncated Floquet wave diffraction method for the full-wave analysis of large phased arrays. I. Basic principles and 2-D cases, IEEE Trans. Antennas Propag., 48, 594600.
  • Neto, A., S. Maci, G. Vecchi, and M. Sabbadini (2000b), A truncated Floquet wave diffraction method for the full-wave analysis of large phased arrays. II. Generalization to 3-D cases, IEEE Trans. Antennas Propag., 48, 601611.