Oops! sorry for the looooooong delay in getting back to you! Lot's of things going on, and not enough hours in the day!
I finally got shipped from the states a Dayton EMM-6 microphone (with it's own individual calibration file provided by Cross Spectrum Labs) and made REW tests before and after building superchunks and bass traps as you suggested!
Excellent! I downloaded your MDAT file, and I've been looking at it a bit, but there are some issues with it. The data is valid, but... :
1) There's only one measurement in that file! I was hoping to see the tree sets of measurements in there, that you already did, to compare them directly and see what is working and what is not working.
2) There's only one measurement, and you don't way how you got it! Which speaker did you use for that? The left one or the right one? Or both? What you should do is, for each measurement set, take one with just the left speaker, one with just the right speaker, and one with both speakers. So there should be nine measurements in your MDAT: an L, an R and a Both for each of the three situations you measured...
3) You didn't calibrate REW correctly, or if you did then you measured with the level too low. You measured with an average level of a bit less than 70 dB, but in reality it should be about 86 dB for the "both" reading, and 80 dB for the individual speakers.
So I'd suggest repeating those measurements after re-calibrating REW with your sound level meter, and doing tests for L, R and Both for each scenario.
The standard 60° monitoring with a 150cm sided equilateral triangle left me with considerable unevenness on the bass freq, while moving the speakers wider (234cm apart) with a 90° monitoring setup made some improvement in the lows.
You shouldn't really be fiddling around with speaker positions yet, until you have more of the treatment in place. If you had your speakers 150 cm apart, then they were too close for that room. And at 234 cm, they are too far apart! In fact, from the photos it's clear that they are nearly in the corners, which is not good at all.
With a room width of 391 cm, each speaker should be about 108cm from the side wall, which means they will be about 175cm apart. Your head should be about 200cm from the front wall in your case, which would mean that your ears are also about the correct distance from the speakers (somewhere around 160-180cm, depending on the size of the speakers and how much insulation will be behind them. The angle of each speaker will be a bit less than 30° in this case, if you want to get the speaker intercept point a good distance behind your head.
So please set up the speakers and mic like that, and do anther REW test (in addition to re-testing with the way you have it set up now!) to see of there's a good difference when set up like that, or not.
OK, about the treatment you have in the room right now: the bass traps don't look big enough to me. What is the distance across the front face of those? I think you might need to make them bigger. The basic issue that you are way short on bass trapping in that room. Surprisingly, all of your axial modes are visible in the REW data... but at higher than normal harmonics! For example, there's a big one about 99 Hz, which ir your 3,0,0 mode (third-order front-back axial mode), another big one at about 142 Hz (forth-order front-back axial mode), and another at about 177 Hz (4th order side-to-side axial mode). It's unusual for the higher order modes to be so much more prominent than the fundamentals and lower order (although those are visible too, in the data).
So overall, you need much more bass trapping in there.
my idea of the final look of the room was to get the entire studio covered with the classic acoustic fabric finish (stapled from a pro guy) and incorporating the absorbing part of the treatment within a wooden frame under the fabric (including the vertical superchunks I've already built), quite a classic approach I guess, right?
That's a good plan, yes, but don't forget that this will make your room too "dead" in the highs, so you'll need to either prevent that with some type of reflective membrane in front of some of the absorption (under the cloth), or perhaps with slots walls (slats over the cloth).
I gather that deep bass absorption on the rear is mandatory,
Absolutely! especially if you are doing an RFZ style of design. I'd suggest making that about 6" thick (about 15cm), but also enlarging your rear superchunks. Perhaps just put a full panel of 703 in front of each one.
I'd also suggest that you put in a large, angled, hard-backed ceiling cloud over the front of the room.
One other thing I'd do, is to put absorption between the speakers and the front wall (at least 2" of 703, preferably 4"), and at the first reflection points on the side walls (at least 4").
I'd hold off about doing the side walls until you have the rear and ceiling cloud in place, to see what actually needs to be done to those.
Do you think that we have enough data to determine where I should start building the wood frames for the absorption? That would allow me to get all the fabric cover job done,
I would take it one step at a time: first get your bass trapping and other modal issues resolved, then the initial panels mentioned above (front wall, side walls), then measure with REW and see what still needs doing.
is there somewhere a mdat file of a properly treated control room so that I know what I should strive for?
I can't give you the actual MDTA file, since this is from one of my paying customers, but I can show you something about how it should look, compared to hoe yours looks at the same scale.
First, SPL graph below 500 Hz:
How it should look:
d9-spl-15-500.jpg
How yours looks:
callaghan-spl-15-500.jpg
Next, the waterfall plots for the same region (below 500 Hz):
How it should look:
d9-waterfall-15-500.jpg
How yours looks:
callaghan-waterfall-01-15-500.jpg
Then the Spectrogram plots, for two different ranges. First 15--500 Hz:
How it should look:
d9-spectro-15-500.jpg
How yours looks:
callaghan-spectrogram-01-15-500.jpg
Now the same, but focusing on the area below 200 hz:
How it should look:
d9-spectro-15-200.jpg
How yours looks:
callaghan-spectrogram-01-15-200.jpg
And finally, the RT-60 plots (more correctly: energy decay plots):
How it should look:
d9-rt60-single.jpg
How yours looks:
callaghan-rt60-01.jpg
OK, those comparisons aren't really fair, since the ones I'm showing you for "how it should look", are from a room that is quite a bit bigger than yours, and that has been very carefully treated and tuned over many months. You wont be able to get the curves as smooth and balanced as that in your room. But at least it gives you an idea of what you should be aiming for.
Yep, your advice of detaching the internal window from the outer leaf proved effective
Great! Glad it worked out for you!
- Stuart -
I posted my introductory plan quite a while ago and finally the isolation phase of John's inside-out wall is completed, walls and ceiling are up, with a 15° sloping ceiling over my listening position.
It's not as effective as good ol' 40Kg/m3 rockwool but I wanted to be able to move them around easily and make some experiments in order to decide later on where to place the permanent horizontal corner bass traps.
Thanks for answering!
, I really had wished I could avoid the cloud in some way 
, 17.2 x 12.8 x 8.5 is not bad a size for a home studio, but as you said it is smallish for a full blown pro studio mixing room, I finally came to terms with that and have to accept it. I know I will probably disappoint you, since your philosophy is: I want this studio to amaze people. "That'll do" doesn't amaze people.