Just a followup:
Watching the first video, and I screencapped this specifically:
View attachment 47815
This, along with your assertion in the video about live recordings versus studio recordings et al, seem weird to me, because I have a pair of extremely narrow dispersion speakers (Belle Klipsch), and we listen to a ton of live recordings. Even my wife, who is a complete novice regarding acoustics and sound, finds it remarkable how immersive an experience it is listening on this system, "as though you're right there in the audience" is a frequent comment from her.
Granted, there are a lot of moving parts involved here, such as the fact that I do NOT toe the speakers inward to our primary listening space (an aesthetic choice I had to make to keep the peace) and the fact that this is a very, very live room, with glass sliders and tiled floor (though there is a carpet and the furniture is fabric), and I haven't treated it at all yet. The big advantage I have regarding treatment in this room is the utter lack of bass nulls, because the room is L-shaped and has numerous outcroppings and doorway/entry points that disrupt virtually all the parallel surfaces except floor/ceiling.
But I did find it interesting, anyway. Otherwise, it's a fascinating discussion.
These are well established phenomena backed up by lab experiments. Though apparently I had a typo. That second bullet point should say image placement is less distinct, not more.
But live recordings isn't the same thing as a symphony. I think you have to keep in mind what we are comparing here. it is not live vs studio. It is large natural acoustic recordings vs those which lack those large natural spatial cues.
For the most part, a speakers radiation pattern has no impact on apparently source width in an anechoic environment. We hear all speakers as essentially point sources. That is why evaluating speakers in an anechoic chamber tells you so little about its sound. Place it in a room with reflections however and the dispersion pattern dictates the ASW. This is a fact, not an opinion. The wider the dispersion, the greater the ASW.
But something else comes along with this, the wider the dispersion, the higher the ASW, the lower the phantom object specificity. That is, it becomes harder to hear exactly where a phantom image is coming from. With a large orchestra in a symphonic hall, this is quite natural. If you look at David Griesinger's work on proximity, you will see this is a phenomena he finds to be true in symphonies too. But his work also raises an issue. He finds that the higher the proximity score the better someone perceives the quality of the performance. That means that the greater the direct to reflected sound ratio (caused by sitting with greater proximity to the source, among other things) the better we can delineate the instruments in the sound stage and prefer this. That suggests that overly reflective rooms with overly wide dispersion is not a good thing. It's a balancing act.
Again, that is what is true for a symphony.
Now lets look at the very loaded word "live performance" and think about most examples of this. A rock concert, like Pink Floyd Live at Pompeii. That's a live performance. Has nothing to do with the prior statement though. This is no different than a studio recording when it comes to acoustics. These live events are amplified and the recordings come off the mixing board. That means everything is direct mic feeds. Sometimes there have been events where extra micrphones in a Blumlein arrangement (or similar) are added to bring back the natural sound of being there, but even then, everyone there didn't hear the natural sound of the acoustics of that environment or those instruments. It was all artificially amplified. So there are no "real" acoustics to a live rock concert.
There have been some very cool attempts to fix this over the years, but it isn't common.
en.wikipedia.org
and
en.wikipedia.org
These are designed to give a live amplified performance the natural sound if that performance were able to be performed inside a concert hall without amplification. It's a fairly accurate recreation of a phenomena that isn't actually possible.
In fact, the acoustic phenomena I talk about here are related to ideas that are correct and accurate for acoustics generally, but do not apply to most of what we hear. Most of what we hear is lousy. It's artificial. But keep in mind, something being acoustically lousy doesn't mean its emotionally lousy. A concert can have a great vibe to it with the musicians really feeling each other, their audience, and really putting on a great show. We can sense that and enjoy it. We can get an emotional reaction to it. It can make our hairs stand on end. But....That has nothing to do with acoustics.
Acoustics is a tricky business that a lot of folks don't really understand. Specifically psychoacoustics, a lot of folks don't fully understand how we hear what we hear and how that translates to what a sound reproduction system is doing. It really isn't all that intuitive. Reproduced music is generally highly artificial. What we hear is not a natural musical event. It makes it really hard to know how it is supposed to sound. The reason why a lot of researchers and audiophiles prized classical recordings were that they were the one kind of music where there was an obvious natural event to compare against. There existed a point of reference and it made sense. For me, it's about enjoyment, I just don't care. But I understand the issues well enough to at least talk about these differing goals.
For me, the artificial studio recordings often were engineered utilizing low reflection or reflection free environments and the spaciousness was largely added artificially if at all. Often, it wasn't added at all. That means that I don't find those recordings to sound as good to me (this is my subjective opinion) with wide dispersion speakers in a lively room. I prefer them reproduced in a dry room with controlled dispersion speakers. But not everyone agrees and there is no right or wrong to that.
