Questions? 800-523-5874 | info@emsdiasum.com
The performance and lifetime of the hexaboride cathode are determined by several factors: vacuum level, cathode temperature, impurity level, crystal orientation, tip shape, and mount design.
CeB6 has an evaporation rate at normal operating temperatures near 1800 K that is lower than that of LaB6 . So long as care is taken to operate the cathode below 1850 K, CeB6 should maintain an optimum tip shape longer, and therefore last longer.
In laboratory tests, CeB6 has proven to be more resistant to the negative impact of carbon contamination than LaB6. This increases stability and results in less time to reach stable operation and more rapid recovery from contamination events.
The effects on oxygen on current density is shown in the figures below for LaB6 and CeBix™.
Parameter
|
Units | LaB6 | CeB6 |
---|---|---|---|
Stoichiometry |
N/A
|
~6
|
|
Metal Impurities |
ppm by wt.
|
<30
|
|
Density |
g/cm3
|
4.72
|
4.80
|
Coefficient of Thermal Expansion |
α x 106
|
5.6
|
6.2
|
Electrical Resistivity |
µΩ-cm
|
~50
|
~65
|
Effective Work Function (100) at 1800 K |
eV
|
2.70
|
2.65
|
Spectral Emissivity at 0.65 microns |
N/A
|
0.765
|
0.779
|
Evaporation rate at 1800 K (UHV) |
g/cm2/s
|
2.2 x 10-9
|
1.6 x 10-9
|
Orientation limit for specific orientation |
degrees
|
<2
|
|
Pyrolitic block mount resistance @ 1800 K |
Ohms
|
1.45
|
Lanthanum Hexaboride (LaB6) and Cerium Hexaboride (CeB6) Cathodes are available online from the EMS Catalog. For ordering or product information, click here.