Scanning for ideas: A space-age refrigerator
When NASA needed to cool a space-based spectrometer that will measure X-rays coming from distant astronomical objects to 0.065°K, it turned to adiabatic demagnetization.
It is efficient
enough to let its helium last for
extended periods in orbit and
does not require gravity.
In the device, calorimeters
measure heat input, while a heat
switch periodically dumps heat
into a helium bath (not shown
in the illustration). Copper
rods serving as a thermal bus
connect the calorimeters with
a salt pill, where cooling takes
place. The salt pill, made of
ferric ammonium alum, has
wires running through it for good
thermal contact between pill,
heat switch, and bus. The pill
slides into a superconducting
magnet. Changing the field of the
magnet cools or heats the pill.
The shell of the device, a
series of metal rings and tubes,
supports the pill with Kevlar
cords. The cords hold the pill in
place during launch, but have
low thermal conductivity, so little
heat leaks through them and into
the pill.