Oxford Helium Cryostat

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About

11-BM supports a Oxford closed flow Helium cryostat. The sample is in direct contact with the cold He exchange gas. This can be used to cool small diameter capillary samples from ambient temperatures down to ~ 10 K with an in-situ spinner (or 5 K with no spinning)


Helium Cryostat Image

Helium Cryostat Zoomed Image

User Instructions

Python Script to Log Cryostat Temperatures

  • Copy the file "CStemplog.py" to your User GUP directory
  • Check if your directory contains an old log file named "CryoStat_Templog.txt" - if Yes, rename the old log file.
  • Open a Terminal window (right click on mouse)
  • At the command line - navigate to your current User GUP directory

(example: cd ~Users/GUP25248)

  • At the command line, type "/APSshare/bin/python CStemplog.py" to start the log scrip


Changing Cryostat Samples

  • Stop spinner motor (if using)
  • Warm cryostat to > 280 K
  • Close B-Hutch Shutter
  • Set cryostat control Mode to "H&G Manual" , set all 3 values to 0.
  • Turn OFF power for spinner motor controller - inside left blue cabinet, motor # 5. (if using)
  • Turn OFF power to cryostat controller
  • Disconnect cables on sample stick (Red = Sensor 2, Yellow = Auxiliary)
  • Carefully pull sample mounting stick out of the cryostat. Take extra care of the fragile wires and sensors.
  • Cover the cryostat opening
  • Change samples on mounting stick - ensure new sample is the correct length.
  • Carefully re-insert sample mounting stick inside cryostat.
  • Check diode orientation with respect to the beam and sample
  • Reconnect cables on sample stick (Red = Sensor 2, Yellow = Auxiliary)
  • Turn ON power to cryostat controller
  • Purge cryostat sample with Helium gas

1) turn on pump, open vacuum pump value 2) open gas cylinder, connect gas line 3) open cryostat value to sample space fully 4) close pump value, and slowly open gas value 5) bleed in Helium gas, but do NOT exceed 1 ATM pressure. 6) close gas valve, open vacuum pump repeat steps 4 -> 7 several times to purge sample space. 7) on last step, leave at under 1 ATM of Helium gas. 8) close gas, vacuum, and cryostat values 9) disconnect gas line, close gas cylinder 10) turn off pump

  • Search Experimental Hutch
  • Turn ON power for spinner motor controller (if using)
  • Check sample alignment with the beam



Manuals

On the Internal 11BM Staff staff SVN repository here:

https://subversion.xor.aps.anl.gov/11BMweb/Internal/trunk/staffdocuments/OxfordOptistatCF_HeliumCryostat_Documents/


factory default PID info

OxfordITC_Cryostat_factorysetttings


ordering Liquid Helium

call Mary Berryman (FMS) on 2-3440 by 11 AM the day before to order Helium for next day delivery

normally order 100 L dewer

leave a message if no answer; give name, full cost code, badge number, delivery location (433)

'GE' Varnish

MARCH 2013 - DDusted Grease Kapton is much better than Varnish. Use of Varnish is NOT recommended (See below)

A preferred preparation method for 11-BM cryostat samples uses powder mixed with 'GE' Varnish to increase thermal transport between the sample capillary and helium exchange gas.

GE Varnish is a varnish and adhesive which possesses electrical and bonding properties that make it an excellent material for cryogenic temperatures. It can be ordered from Lakeshore under the name "VGE-7031"

It is stable over the temperature range 0 - 423 K (150 °C)

For more detail see: http://www.lakeshore.com/products/cryogenic-accessories/varnish/Pages/Overview.aspx

More Details


March 2013

Sample Mounting

samplemount

CS 2x samplemount CS 2x samplemountb


CuFeO2 Phys. Rev. B 73, 220404(R) (2006) [4 pages] http://prb.aps.org/abstract/PRB/v73/i22/e220404

"temp" is sensor #1 (sample stick) @ end of scan

CuFeO2 paper


CuFeO2 Grease


CuFeO2 Varnish