The technology may offer a compact, convenient means of chilling advanced sensors below standard cryogenic temperatures -- 300 milliKelvin (mK), typically achieved by use of liquid helium -- to enhance their performance in quantum information systems, telescope cameras, and searches for mysterious dark matter and dark energy.
Now your IR signature can be resolved by zero-helium staring arrays in geostationary orbit, instead of LEO/MEO. I feel safer.
Now your IR signature can be resolved by zero-helium staring arrays in geostationary orbit, instead of LEO/MEO. I feel safer.
Not the first thing I would have thought of. Hopefully it can be used to bring down the cost of medical imaging equipment and allow for significantly faster clock rates for computers.