Choked dipole arm

What is claimed is: 1. A low band radiator for a dual band antenna having a low frequency band and a high frequency band, wherein the low band radiator comprises a choked dipole arm having an elongated center conductor, and wherein the choked dipole arm further comprises: at least one radio frequency choke comprising a partial box section that is closed on a first end, open on a second end parallel to the first end, and that comprises a bottom that is perpendicular to the first and second ends and that has a slot, wherein the first end is short circuited to the elongated center conductor, wherein the partial box section is quasi-coaxial about the elongated center conductor, and wherein the at least one radio frequency choke is resonant near the high frequency band. 2. The low band radiator of claim 1 , wherein the at least one radio frequency choke comprises a plurality of radio frequency chokes, wherein each radio frequency choke of the plurality of radio frequency chokes has a partial box section, and wherein each partial box section is separated by a gap. 3. The low band radiator of claim 2 wherein the elongated-center conductor has a rectangular cross-section. 4. The low band radiator of claim 3 wherein the choked dipole arm is formed as a single conductive piece. 5. The low hand radiator of claim 4 , wherein the slot in each bottom of the plurality of the radio frequency chokes facilitates use of a two piece-mold for die casting the choked dipole arm. 6. The low band radiator of claim 1 wherein the slot is wider than the elongated center conductor. 7. The low band radiator of claim 1 further comprising a conductive covering that covers the slot. 8. The low band radiator of claim 2 wherein the choked dipole arm comprises injection-molded plastic and metal plating. 9. The low band radiator of claim 2 wherein the choked dipole arm comprises four partial box sections separated by three gaps. 10. The low band radiator of claim 1 wherein the choked dipole arm is less in length than one-half wavelength of a center frequency of the low frequency band. 11. The low band radiator of claim 2 wherein the elongated center conductor terminates in a fork that is dimensioned to allow a printed circuit board to be inserted into the fork and dimensioned to capacitively couple the choked dipole arm to a feed circuit on the printed circuit board. 12. The low band radiator of claim 11 wherein an inductor section configured to tune out the capacitance is included on the printed circuit board. 13. The low band radiator of claim 2 wherein each radio frequency choke of the plurality of radio frequency chokes provides a high impedance separating adjacent section. 14. The low band radiator of claim 1 , wherein the choked dipole arm is a first choked dipole arm, the low band radiator further comprising a second choked dipole arm. 15. The low band radiator of claim 1 wherein the partial box section is at least partially filled with dielectric material. 16. The low band radiator of claim 2 wherein the elongated center conductor connects first ends of the partial box sections of the plurality of radio frequency chokes. 17. The low band radiator of claim 2 wherein the elongated center conductor has a thickness adapted to minimize high frequency hand current to reduce disturbances of high-band radiation patterns by the low band radiator. 18. The low band radiator of claim 2 wherein the choked dipole arm is fabricated as a one piece choked dipole arm without metal to metal interfaces. 19. The low band radiator of claim 2 wherein the radio frequency chokes of the plurality of radio frequency chokes are of different lengths. 20. The low band radiator of claim 1 , wherein the elongated center conductor has a round cross-section.