...The key to seamless integration was using a low-Q [i.e well damped] woofer with low-inductance [i.e. minimal back-emf for faster transient response] mounted on an open baffle to match the ESL's dipolar radiation pattern. The low-Q woofer sacrifices deep bass extension to prioritize a seamless blending with the ESL, so subs are required for the bottom end (below 60Hz)...
The very use of the term 'faster transient response' for subwoofers, and also the second idea of linking it to back-EMF, reveal false notions of what causes speakers to sound like they do.
"Fast" (or "faster") was not the best choice of words here but I do think transient response (in addition to a well damped suspension) is important for blending a woofer in a hybrid ESL.
My inference that that the mid-bass woofer's back-EMF affects it's transient response follows from the back-EMF opposing the drive signal, and since a low-inductance voice coil generates less back-EMF, it follows that lower inductance gives better transient response.
I neglected to mention the importance of the woofer having a well designed shorting ring (or rings) to minimize its inductance, as opposed to merely having fewer turns in the voice coil, giving lower drive force.
In fact, for integrating a woofer in a hybrid ESL, I prioritize its voice coil inductance over [even] its moving mass, for best transient response in the crossover band.
None of the above is true, or relevant to a discussion of what causes speakers to sound like they do, unless the amp has horrendously low damping factor.
So much of the lore surrounding electrostatic speakers is myth. A here we see yet another.
Assuming a decent standard amp, ie a typical bread-and-butter amp with high global NFB and low output impedance, all you need is a sufficient current margin of at least two, lets say three is plenty, compared to the current needed for an 8 ohm resistor, then once that is sorted, back EMF has no role, hence choosing a woofer that has less back EMF via less inductance has no role, and the whole idea that it has a link to 'blending sonically' with a stat panel has no truth.
This is why I entered this discussion: it is the old 'fast bass' discussion, and it is just not right.
The far more likely reason for one to prefer a subwoofer with diminished LF extension, like a Ripole, is because you are just not doing a normal subwoofer correctly. You know what
really causes a subjective impression of slow bass? A strong, deep-reaching subwoofer
without any room correction. And the answer to that....well I just wrote it in the description. But people just won't do correction and do it properly. So the next-least-worst option is to have less bass. It can't ring if it isn't there in the first place, right?
And
that's the reason why a dipole woofer will seem 'faster'. It has nothing to do with inductances and back EMF.
It would make sense to repurpose the drivers from a Ripole project and put each driver into its own, normal, subwoofer box, position them around the room in accordance with multi-sub acoustical guidelines, and get interested in doing room correction properly to eliminate ringing and perceptions of slow bass. Vastly better bass all round, and should be no integration problem as long as the panels are not doing 'bad bass' above the crossover frequency.
cheers