Difference between revisions of "34-ID-C"
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'''Linkam Cryo stage''' | '''Linkam Cryo stage''' | ||
The guts of this cell is a Linkam THMS controller. Temperatures as low as -100 C are possible but since the 3D printed chamber is not vacuum compatible, icing can be significant. Development of a highly dried gas | The guts of this cell is a Linkam THMS controller. Temperatures as low as -100 C are possible but since the 3D printed chamber is not vacuum compatible, icing can be significant. Development of a highly dried gas environment is underway to minimize icing. The cell can also support moderate heating, limited by melting the 3D printed chamber. We have maintained 50 C for many hours with no problem. A newer version of the chamber, than that pictured, includes a magnetically secured removable cover. | ||
[[File:Linkam1.JPG|320px]] | [[File:Linkam1.JPG|320px]] |
Revision as of 17:44, 24 February 2018
Setup Images and Drawings
Media: 34IDC_basic_instrument_diagrams_for_mounting_assistance_etc.pdf
Sample Environments (Resident at beamline)
Heater Cell
The heater cell is capable of several hundred degrees centigrade. Improvements are underway to reach up to 1000 C. It also supports a single gas flow through the chamber. It is not vacuum compatible.
Linkam Cryo stage
The guts of this cell is a Linkam THMS controller. Temperatures as low as -100 C are possible but since the 3D printed chamber is not vacuum compatible, icing can be significant. Development of a highly dried gas environment is underway to minimize icing. The cell can also support moderate heating, limited by melting the 3D printed chamber. We have maintained 50 C for many hours with no problem. A newer version of the chamber, than that pictured, includes a magnetically secured removable cover.
Available Detectors
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