You can also see that MIRI is actively cooled by helium which is how it is under 7 degrees Kelvin. Do you know what temperature the mirror is likely to stop cooling?
If you look at the blog post Puppycow links to it says
The 18 primary mirror segments range in temperature from 34.4 kelvins to 54.5 kelvins.
Currently, four of the 18 mirror segments are above 50 kelvins: at 52.6, 54.2, 54.4, and 54.5.
I can't find a listing for the individual temperatures for all 18 segments but if I were to guess, I would say that the
"bottom" ones nearest the sun-shield are likely to be the ones with the highest temperatures because some heat does make to through the shield.
I can't see any reason why all the segments should not be able to get down to under 40K, although the blog also says this...
The Webb team hopes to see the mirrors cool by an additional 0.5 to 2 kelvins.
What do they mean by "mirrors". Do they mean the primary and secondary mirrors, or are they talking about the mirror segments? Usually, when they refer to the
"mirror" they are talking about primary as a whole.
ETA:
So I found this from Feb 9 but I have been unable to find an updated version.
In the
JWST co-ordinate system, the axis V3 is "ante-spacecraft", so away from the sun-shield, which means in this diagram the sun-shield is at the bottom. The four segments nearest the sun-shield were the warmest back then, and I see no reason why that should have changed.
It is worth noting that from the blog...
The secondary mirror, hanging out on the end of its support structure a long way from any heat sources, is the coldest mirror, currently at 29.4 kelvins.
... and if you look at the diagram, the secondary temperature was 30.8 K back on February 9, so it has only fallen 1.4° in 73 days, while the primary mirror segments seem to have fallen about 6 to 9° over the same period. This would seem to indicate there will be a limit of about 30K beyond which they will no longer cool.
