Cooling Stages

Helium and liquid nitrogen stages to monitor cryogenic or temperature dependent studies to better understand your electrical and electronic materials. 

Advantages Research Spotlight Media Library Publications Resources Back to top
Advantages: 
  • Beam sensitive materials are stabilized under high beam currents
  • Low-temperature phases can be studied
  • Enhanced imaging and spectroscopy, especially for cathodoluminescence (CL)
Model # Base temp. Cool down time Max. operating temp. Tilt Rotate Additional electrical feedthrough option
C1001 -185 °C 10 min 50 °C 45° ±5°
C1002 -185 °C 10 min 200 °C 45° ±5°
C1003 -185 °C 10 min 400 °C 45° ±5°
CF302M 8 K 55 min 140 K   ±5°
 
Liquid nitrogen cooling stages C1001, C1002, C1003
  • Simple installation/removal allows use of standard SEM stage
  • Stages cooled to less than -185 °C by nitrogen gas
  • Efficient thermal design ensures rapid cool down and stable temperatures
  • Accurate control through integral heater and temperature sensor
  • External liquid nitrogen heat exchanger removes vibration due to boiling of LN2
  • Higher upper-temperature options for more flexibility in experiments
Liquid helium cooling stage CF302M
  • Specially designed low drift and vibration, while minimizing liquid helium consumption
  • CF302M is a helium-cooled stage module that attaches onto the existing stage
  • Complete system includes flexible transfer tube storage vessel, top fitting with bladder and valve, gas flow controller, gas flow pump, and digital temperature controller
Dual fuel option
  • Allows liquid helium cold stages to be operated with either helium or nitrogen
  • Functions by forcing cold nitrogen gas through the circuit similar to the successful C1002 product 

Publications

High Power Laser Science and Engineering
2021

Bespaly, A.; Dey, I.; Papeer, J.; Shaham, A.; Komm, P.; Hadad, I.; Marcus, G.; Zigler, A.

Resources:

 

Models C1000, CF302M

Datasheets

Specimen Cooling Stage Modules

Related products

Monarc™ CL Detector

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