This is a fundamental problem in modern multi-color/frequency astronomy. You can not simply add two spectrally significant different channels because they contain information about different solid angles on the sky.
If you have two maps with different inherent beam sizes one common approach is to resample the map with the higher spatial resolution to the lower resolution of the other map by convolving with a Gaussian beam of size:
$theta_{Gauss-kernel}=sqrt{theta_{low}^2-theta_{high}^2}$
For example, if you have two maps with resolution (FWHM) 5" and 15" you need to smooth the 5" map with a Guassian kernel of size
$theta_{Gauss-kernel}=sqrt{15^2-5^2}=14.14"$
to obtain a comparable map.
Of course the beams are never true Gaussians and it depends whether you observe point sources or extended (w.r.t. the beam) source.
As an example you can take a look at the SPIRE Observers manual. SPIRE was an instrument onboard the Herschel Space Observatory. They discuss the involved problems in somewhat more detail.
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