I'm detecting some surprise about all this.
Unwanted sound emanates from all box speakers.
We have discussed the port but a more major source is direct transmission through the speaker walls.
Now sound travels actually better through liquids and even better through solids than air. The more tightly packed the molecules the better. It also travels faster in water and faster in solids than water. Since frequency is the speed of sound divided by wavelength, if the speed is higher there is an increase in pitch as it traverses the solid.
If you put a speaker totally inside a closed box you would still hear it no matter how perfectly you braced the cabinet.
So what form does sound transmission take through a speaker cabinet. We talk a lot about panel resonance. This is when the sides are at a resonant point, resulting in a single or multiple peak rises in output from the cabinet walls.
However sound also passes though the walls by direct molecular transmission. The tighter the molecules are packed (denser) the more efficient the transmission. This transmission has nothing to do with resonance and is an inherent property of the material of the cabinet walls.
So lets consider a closed box and forget a port at this time. Lets also assume panel resonance is perfectly controlled for this discussion. Some of the sound from the rear radiation will be adsorbed by the damping. Some will undergo multiple reflections and be reduced in strength. But some will excite molecular collisions and pass through the walls. As it passes it increases in speed and pitch. As the molecules on the outside surface set the air molecules vibrating the sound slows and original pitch is restored. Unfortunately all frequencies are not treated equally. So there is a band pass effect. This is audible and a source of coloration in speakers that is difficult to control, and never perfectly controlled.
Unfortunately ported speakers can only be lightly damped otherwise the speaker does not work.
Sealed and TL speakers are much more heavily damped and have less of this coloration.
It gets worse. Reflections from the rear radiation are transmitted through the loudspeaker cone more easily than the cabinet walls, and are a definite source of coloration in speakers. Again this is worse for ported speakers than other designs. In addition this is the reason why different cone materials do have a slightly different timbre. The band pass frequencies of various cone materials are different. All of this direct sound transmission through solids tends to upset mid range clarity preferentially.
All this has been a big push for planar loudspeakers and open backed speakers. The cry of these enthusiasts is "Get rid of the box!'" Well they have a point but in ridding themselves of the box create other ills. I will say this however that this is a major reason for the delicate transparent sound of the best electrostatic speakers.
This is a problem I pondered a lot over the years. So reducing this has a lot to do with the way my speakers are designed.
The mid range line enclosure apart from the front panel is highly isolated. The sides by the angled side panels with heavy damping. This also reduces cabinet width and brakes up the time paths of the reflections.
The top, rear and bottom radiations are reduced by having to traverse the bass line.
So the only significant direct transmission is though the front baffle, which is double thickness. There is no further measures to ameliorate this that I can think of.
This is effective though, and quite a few have thought the mid line to be an electrostatic panel.
