That's what I believe. At least in an audible sense. As measurement technology advances, I am sure the differences must seem pretty compelling for those wrapped up in the science of it all, but audible accuracy with sound reproduction has been around for decades. At some point, this becomes a lot of technical tail chasing, before having realized the full potential of what already exists.
That's all fine and well for those interested in that so I'm not knocking it. Just holding on to a little personal perspective before giving up on what I have already heard come out of some pretty amazing speakers.
The ideal dome speaker material would maintain its shape without distortion at any frequency it was asked to play.
Somewhere Harman Labs has some laser interferometer measurements showing how Be compares to several other materials. They use this as the case for Be tweeters, and it did indeed maintain its shape better than the other materials.
Be either is or is very close to the most rigid material with the lightest weight (for quick response).
Thus, in theory, Be is an excellent material for a dome tweeter. Is it really audibly better than the next best material? I don't know.
However, once you commit to making a Be driver, between the costs of
1. process requirements to safely handle Be
2. the Be, itself... being a rare material
3. purifying/forming the Be into a dome
it would be insane not to commit to the best available designs for every aspect of the tweeter assembly. Only a relatively large company with the resources (including a good engineering/design capability) could take this on.
My point is it is entirely possible that the reason Be has such a good reputation is that crappy Be tweeters were never produced.*
*This statement does not include the few "Be" tweeters that were made of an alloy with very little Be in them but sold as Be by unscrupulous manufacturers. Obviously, we are not talking companies like Harman-Revel, Focal, or Paradigm.
