Base station antenna with dummy elements between subarrays

What is claimed is: 1. An antenna comprising: two or more first-band radiating elements, configured to operate in a first frequency band and connected to a feed network of the antenna; and one or more dummy elements positioned between two of the two or more first-band radiating elements, wherein the one or more dummy elements are disconnected from the feed network, a third column of second radiating elements, the second radiating elements configured to operate in a second frequency band, wherein the one or more dummy elements includes a dummy element having a printed circuit board, wherein the two or more first-band radiating elements comprise a first column of first-band radiating elements and a second column of first-band radiating elements, and wherein the one or more dummy elements comprise a column of dummy elements that extends between the first column of first-band radiating elements and the second column of first-band radiating elements, and wherein the third column of second radiating elements is between the first column of first radiating elements and the second column of first radiating elements. 2. The antenna of claim 1 , wherein at least one of the one or more dummy elements is configured to absorb or reflect energy radiated from at least one of the two or more first-band radiating elements, and wherein the amount of energy absorbed or reflected is based on a load resistance of at least one of the one or more dummy elements. 3. The antenna of claim 1 , wherein the first frequency band comprises a band of frequencies higher than the second band. 4. The antenna of claim 3 , wherein at least one of the one or more dummy elements includes a dipole having a length in a range of 0.3 wavelength to 1 wavelength of the first or second frequency bands. 5. The antenna of claim 1 , wherein each dummy element comprises a cross dipole radiating element that is not actively radiating. 6. The antenna of claim 1 , wherein the dummy element that includes the printed circuit board further includes a resistive load on a lower portion of the printed circuit board. 7. A multi-band base station antenna comprising: a first longitudinally extending column of first radiating elements connected to a feed network of the antenna, the first radiating elements being configured to operate in a first frequency band; a second longitudinally extending column of first radiating elements; a third column of second radiating elements, the second radiating elements configured to operate in a second frequency band; and a fourth column of dummy elements positioned transversely between the first column of first radiating elements and the second column of first radiating elements, each dummy element comprising a cross dipole radiating element that is not actively radiating and that is disconnected from the feed network, wherein the third column of second radiating elements is between the first longitudinally extending column of first radiating elements and the second longitudinally extending column of first radiating elements. 8. The antenna of claim 7 , wherein the first band comprises a band of frequencies higher or lower than the second band. 9. The antenna of claim 7 , wherein each dummy element includes a printed circuit board. 10. The antenna of claim 7 , wherein the third column of second radiating elements is collinear with the fourth column of dummy elements. 11. The antenna of claim 7 , wherein each dummy element comprises a cross dipole radiating element that includes a horizontally-oriented dipole and a vertically oriented dipole. 12. The antenna of claim 11 , wherein each first radiating element comprises a cross dipole radiating element that includes a −45° oriented dipole and a +45° oriented dipole. 13. A method comprising: connecting two or more first-band radiating elements, configured to operate in a first frequency band to a feed network of an antenna; positioning one or more dummy elements between two of the two or more first-band radiating elements, the one or more dummy elements being disconnected from the feed network; and selecting an amount of a resistive load of at least one of the one or more dummy elements based on a desired beamwidth for the antenna, wherein the two or more first-band radiating elements comprise a first column of first-band radiating elements and a second column of first-band radiating elements, and wherein the one or more dummy elements comprise a column of dummy elements that extends between the first column of first-band radiating elements and the second column of first-band radiating elements, and wherein a third column of second radiating elements is between the first column of first radiating elements and the second column of first radiating elements. 14. The method of claim 13 , wherein the antenna is a base station antenna. 15. The method of claim 13 , wherein the resistive load is applied on a lower portion of a printed circuit board of the at least one of the one or more dummy elements.