TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS AnalysisTEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS AnalysisTEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS AnalysisTEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS AnalysisTEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis 
 
That will be released in 2018 summer.

TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis
LN2 Cooling -170℃ + Double Tilt±20°+ Non-exposed
Get the High Resolution image at-170℃
Suitable for Lithium-Ion battery analysis
TEM Holder

Cooling TEM holder Cryo TEM holder Cooling Tem Specimen Holder
Cooling TEM holder Cryo TEM holder Cooling Tem Specimen Holder

Drift-Check Movie in HR STEM image at -170℃
   

   
Drift rate: 50pm /sec (3nm/min)


Calculated from atomic weight moved in 1min
(It is not a guaranteed value.)

Sample:    SrTiO3
Magnification: 50M
TEM:   ARM200F Tokyo University
Tilt Angle:    6.7 degree 
             


.



HR TEM Movie after lapse of about 30min
After reached -170℃



TEM Holder tem Holder Sample Holder Specimen Holder Tensile Holder Cryo Holder Cooling Holder Vacuum Transfer Holder HATA SATO ATMOS SEM TEM SEM Stage Vacuum Station Tomography EDS Analysis
 1, evacuate for 15 minutes with the chamber open. After that, open and close the chamber in the vacuum   evacuator, measure the leak from the axis (green).

2, Keep the atmosphere in the chamber, leave it in the atmosphere for3 minutes, then evacuate for 15     
  minutes. Thereafter, the chamber is opened in the vacuum evacuation apparatus (red). Vacuum has been   raised without leaking air into vacuum evacuation unit. A peak due to atmospheric retention to open the   chamber was observed.

3, Leave the chamber in the atmosphere for 3 minutes with the inside of the chamber vacuumed, then  
  evacuate for 15 min. Thereafter, the chamber was opened in the vacuum evacuation apparatus (blue).  
  Although a peak attributable to outgas in the chamber was observed, it was confirmed that the vacuum     was retained.



Of course, single tilt + transfer is also possible.
It is also possible to make Double tilt and Single tilt without transfer function
.