Radio frequency anisotropic patch antenna and polarization selective surface

We claim 1 . A radio frequency antenna comprising: a radiator patch constructed of an anisotropic material having a polarization selectivity direction, a feed line for coupling a radio signal to said patch. 2 . The antenna as defined in claim 1 wherein said patch comprises a carbon nanotube sheet material. 3 . The antenna as defined in claim 2 wherein nanotubes in said nanotube sheet material are substantially aligned with said polarization selectivity direction and wherein said feed line is substantially parallel to said polarization selectivity direction. 4 . The antenna as defined in claim 3 wherein said nanotube sheet material is flexible. 5 . The antenna as defined in claim 1 wherein said patch is attached to a textile substrate. 6 . The antenna as defined in claim 5 wherein said patch is a part of said textile substrate. 7 . The antenna as defined in claim 1 wherein said patch is mounted on one side of a planar nonconductive substrate, a conductive ground plane is mounted on a second side of said substrate and said feed line is coupled to said patch through an opening in said ground plane. 8 . The antenna as defined in claim 7 and comprising a second nonconductive substrate between said feed line and said patch. 9 . The antenna as defined in claim 1 and comprising a second patch constructed of an anisotropic material having a polarization selectivity direction orthogonal to said first mentioned direction, a second feed line for coupling a radio signal to said second patch, said feed lines being disposed substantially perpendicular to each other and said patches of anisotropic materials being disposed substantially perpendicular to each other. 10 . A radio frequency antenna comprising: a first radiator patch constructed of an anisotropic material having a first polarization selectivity direction, a first feed line for coupling a radio signal to said first patch, a second radiator patch constructed of an anisotropic material having a second polarization selectivity direction, said second direction being orthogonal to said first direction, one of said patches overlying the other patch, a second feed line for coupling a radio signal to said patch. 11 . The antenna as defined in claim 10 wherein each said patch comprises a carbon nanotube sheet material. 12 . The antenna as defined in claim 11 wherein nanotubes in said first patch are substantially aligned in a first direction and wherein said first feed line is substantially parallel to said first direction, wherein nanotubes in said second patch are substantially aligned in a second direction orthogonal to said first direction and wherein said second feed line is substantially parallel to said second direction. 13 . The antenna as defined in claim 11 wherein said nanotube sheet material is flexible. 14 . The antenna as defined in claim 10 wherein said patch is attached to a textile substrate. 15 . The antenna as defined in claim 14 wherein said patch is a part of said textile substrate. 16 . The antenna as defined in claim 10 wherein each said patch is mounted on one side of a planar nonconductive substrate, a conductive ground plane is mounted on a second side of said substrate and each said feed line is coupled to each said patch through an opening in said ground plane.