When should I use one polarization over the other on 2 meters?

I've looked at the radiation patterns for horizontal dipole and seen how it changes based on mounting height. I haven't been able to find any information on how the vertical dipole radiation pattern changes with mounting height.


For VHF, choice of polarization is not up to your desired radiation pattern, but who you want to be able to communicate with. In HF, the ionosphere causes random rotation of your signal's polarization, but in all line-of-sight communication, VHF or higher, there is no such rotation and a polarization mismatch can result in no signal at all.

You should use vertical polarization if you wish to communicate with existing FM mobile and repeater stations, because they also use vertically polarized antennas (by convention, and because quarter-wave verticals are much more convenient than other types of antennas on vehicles and handhelds).

On the other hand, you should use horizontal polarization if you are attempting 2 meter SSB or other types of DX/weak-signal work. Again by convention, but the convention arises because (if I understand correctly) horizontal dipoles typically have more gain, and because a horizontal dipole is a simple, efficient freestanding antenna.

If you wish to be able to communicate with both types of stations using a single antenna, you can use a diagonally or circularly polarized antenna, as a compromise which has a reliable small amount of loss in either case. However, such antennas are more directional than a vertical (at least as much as a horizontal dipole) and thus require pointing.

  • $\begingroup$ So if me and my buddy are setting up our stations only to communicate with each other, we would want our dipoles to be horizontally polarized because we would have better gain? $\endgroup$ – KM4NTK Nov 2 '15 at 17:57
  • $\begingroup$ If you are communicating with VHF FM point-to-point I highly recommend using vertical polarization. As Kevin said, this is the convention. Often with VHF line-of-sight communications via simplex or duplex with repeater, high gain for the antenna is not a critical factor. However, if you are using weak-signal comms (SSB, CW, data) then having a high-gain antenna is almost a necessity. This is the reason you will see high-gain 2-meter Yagi antennas. A gain of 15 dB or more is not actually that uncommon. $\endgroup$ – K7PEH Nov 2 '15 at 18:12
  • $\begingroup$ @KM4NTK I'm not actually sure of that claim as I haven't investigated the "point to point, controlling both ends" case. Look at standard antenna patterns. $\endgroup$ – Kevin Reid AG6YO Nov 2 '15 at 18:13
  • $\begingroup$ So if I want the least amount of dB loss, regardless of mode and convention, I should use horizontal. $\endgroup$ – KM4NTK Nov 2 '15 at 18:44
  • $\begingroup$ Under those circumstances, you should use a high-gain antenna, which will have a rigid structure. At that point, polarization doesn't matter except insofar as it's usually easier to mount an antenna in horizontal polarization since the mast then doesn't get in the way of the elements. $\endgroup$ – Kevin Reid AG6YO Nov 2 '15 at 18:47

I've always heard (but am unable offhand to quote authoritative research or provide an explanation of why this is so) that an advantage of horizontal for weak signal work is that a lot of man-made noise tends to be better received with vertical polarization than with horizontal. Thus, all else being equal, you will have better performance (i.e. a better SNR at the receiver) with horizontal. As a side benefit, if you are operating on frequencies that are usually used vertically, interference between you and other users is reduced; thus, not only are you giving yourself an advantage, but you are arguably being a good neighbor at the same time!

  • $\begingroup$ Is a vertical noisier than a dipole, and if so, why? $\endgroup$ – Phil Frost - W8II Nov 16 '15 at 19:55
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    $\begingroup$ Again, no technical info or empirical studies, but here's a quote from the 2008 ARRL Handbook, page 22.53: Tests show little evidence on which to set up a uniform polarization policy. On long paths there is no consistent advantage, either way. Shorter paths tend to yield higher signal levels with horizontal in some kinds of terrain. Man-made noise, especially ignition interference, tends to be lower with horizontal. Verticals, how- ever, are markedly simpler to use in omni- directional systems and in mobile work. $\endgroup$ – Charles Boling Nov 17 '15 at 23:29

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