Band-notched spiral antenna

We claim: 1. A band-notched spiral antenna, comprising: a spiral arm extending from a radially inner end to a radially outer end for transmitting or receiving electromagnetic radiation over a frequency range; and a resonance structure positioned adjacent a segment of the spiral arm by a standoff insulator connecting therebetween, said spiral arm segment associated with a notch frequency band of the frequency range and adapted to suppress the transmission or reception of electromagnetic radiation over said notch frequency band. 2. The band-notched spiral antenna of claim 1 , wherein the resonance structure has a partial spiral shape co-extending substantially in parallel with the spiral arm segment. 3. The band-notched spiral antenna of claim 1 , wherein the resonance structure is electrically connected to the spiral arm segment by an electrically conductive via. 4. The band-notched spiral antenna of claim 3 , wherein the via connects a downstream end of the resonance structure to a corresponding downstream end of the spiral arm segment so that the resonance structure co-extends with the spiral arm segment from the downstream end to an upstream end adjacent a corresponding upstream end of the spiral arm segment. 5. The band-notched spiral antenna of claim 1 , wherein the resonance structure is positioned adjacent the spiral arm segment so that an orthogonal projection of the resonance structure onto the spiral arm does not intersect other segments of the spiral arm radially adjacent to the spiral arm segment. 6. The band-notched spiral antenna of claim 1 , further comprising: at least one additional resonance structure each positioned adjacent another segment of the spiral arm by a standoff insulator connecting therebetween, said another spiral arm segment associated with electromagnetic radiation of another notch frequency band of the frequency range and adapted to suppress electromagnetic radiation over said another notch frequency band. 7. The band-notched spiral antenna of claim 1 , further comprising: at least one additional spiral arm extending between the other spiral arm(s) from a radially inner end to a radially outer end; and for each additional spiral arm, a resonance structure positioned adjacent a segment of the additional spiral arm by a standoff insulator connecting therebetween, said segment of the additional spiral arm associated with electromagnetic radiation of said notch frequency band and adapted to suppress the transmission or reception of electromagnetic radiation over said notch frequency band. 8. The band-notched spiral antenna of claim 7 , further comprising: for each spiral arm, at least one additional resonance structure each positioned adjacent another segment of said spiral arm by a standoff insulator connecting therebetween, said another spiral arm segment associated with electromagnetic radiation of another notch frequency band of the frequency range and adapted to suppress electromagnetic radiation over said another notch frequency band. 9. The band-notched spiral antenna of claim 1 , wherein the standoff insulator is a substrate for supporting the spiral arm and the resonance structure thereon. 10. The band-notched spiral antenna of claim 9 , wherein the resonance structure is formed on an opposite side of the substrate from the spiral arm. 11. A band-notched spiral antenna, comprising: two spiral arms extending between a radially inner end to a radially outer end for transmitting or receiving electromagnetic radiation over a frequency range; and for each spiral arm, a resonance structure having a partial spiral shape positioned adjacent to and co-extending substantially in parallel with a segment of the spiral arm by a standoff insulator connecting therebetween, said spiral arm segment associated with electromagnetic radiation of a notch frequency band of the frequency range and adapted to suppress electromagnetic radiation over said notch frequency band. 12. The band-notched spiral antenna of claim 11 , wherein for each spiral arm the resonance structure is electrically connected to the spiral arm segment by an electrically conductive via. 13. The band-notched spiral antenna of claim 12 , wherein for each spiral arm the via connects a downstream end of the resonance structure to a corresponding downstream end of the spiral arm segment so that the resonance structure co-extends with the spiral arm segment from the downstream end to an upstream end adjacent a corresponding upstream end of the spiral arm segment. 14. The band-notched spiral antenna of claim 11 , wherein for each spiral arm the resonance structure is positioned adjacent the spiral arm segment so that an orthogonal projection of the resonance structure onto the spiral arm does not intersect other segments of the spiral arm radially adjacent to the spiral arm segment. 15. The band-notched spiral antenna of claim 11 , further comprising: for each spiral arm, at least one additional resonance structure each positioned adjacent another segment of the spiral arm by a standoff insulator connecting therebetween, said another spiral arm segment associated with electromagnetic radiation of another notch frequency band of the frequency range and adapted to suppress electromagnetic radiation over said another notch frequency band. 16. The band-notched spiral antenna of claim 11 , wherein the standoff insulator is a substrate upon which the spiral arms and the resonance structures are formed. 17. The band-notched spiral antenna of claim 16 , wherein the resonance structures are formed on an opposite side of the substrate from the spiral arm. 18. A band-notched spiral antenna, comprising: a substrate; at least two spiral arms formed on the substrate and extending between a radially inner end to a radially outer end for transmitting or receiving electromagnetic radiation over a frequency range; and for each spiral arm, at least two resonance structures formed on an opposite side of the substrate from the spiral arms, with each resonance structure having a partial spiral shape positioned adjacent to and co-extending substantially in parallel with a corresponding one of at least two spiral arm segments by a standoff insulator connecting therebetween, said at least two spiral arm segments associated with electromagnetic radiation of at least two notch frequency bands of the frequency range and adapted to suppress electromagnetic radiation over said at least two notch frequency bands.