Thermal contact between cryogenic refrigerators and cooled components

The invention claimed is: 1. An arrangement for mounting a two stage cryogenic refrigerator into a cryostat, the arrangement comprising: a vacuum sock for accommodating at least a part of the refrigerator; attachment means for attaching an upper part of the refrigerator to a surface of the cryostat around an opening of the vacuum sock; a thermally conductive portion of a wall of the vacuum sock which, in use, is thermally and mechanically in contact with a second cooling stage of the refrigerator; arrangements are provided for thermally connecting a first stage of the refrigerator to a thermal radiation shield of the cryostat; the said arrangements comprising a bellows structure within the vacuum sock, the bellows structure containing a sealed mass of cryogen gas, whereby said bellows structure is in a retracted position when the vacuum sock is at atmospheric pressure, and which is in an extended position when the vacuum sock is under vacuum, wherein, in its extended position, the bellows presses a thermally conductive contact piece into thermal and mechanical contact with a first cooling stage of the refrigerator; and wherein the thermally conductive contact piece is arranged to rotate about an axle in response to the bellows structure being in a retracted position when the vacuum sock is at atmospheric pressure, and being in an extended position when the vacuum sock is under vacuum. 2. An arrangement for mounting a two stage cryogenic refrigerator into a cryostat as claimed in claim 1 wherein said refrigerator is elongate in an axial direction, and wherein said axle is parallel to said axial direction. 3. An arrangement for mounting a two stage cryogenic refrigerator into a cryostat as claimed in claim 2 wherein said thermally conductive contact piece comprises an arcuate element that at least partially surrounds said first stage of the refrigerator, said arcuate element having an end connected to said bellows structure and a free end opposite said end connected to said bellows structure, and wherein said axle proceeds through said free end of said arcuate element. 4. An arrangement for mounting a two stage cryogenic refrigerator into a cryostat as claimed in claim 2 wherein said thermally conductive contact piece comprises an arcuate body having an end connected to said bellows structure and a free end opposite said end connected to said bellows structure, and wherein said axle proceeds through said end of said arcuate body connected to said bellows structure.