Chapter 5 calibration procedures, 1 importance of density, tooling and z-ratio, 2 determining density – INFICON Q-pod Thin Film Deposition Monitor User Manual
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Q-pod Operating Manual
Chapter 5
Calibration Procedures
5.1 Importance of Density, Tooling and Z-Ratio
The quartz crystal microbalance is capable of precisely measuring the mass added
to the face of the oscillating quartz crystal sensor. The Q-pod's knowledge of the
density of this added material (specified in the density parameter in material grid)
allows conversion of the mass information into thickness. In some instances, where
highest accuracy is required, it is necessary to make a density calibration as
outlined in
.
Because the flow of material from a deposition is not uniform, it is necessary to
account for the different amount of material flow onto the sensor compared to the
substrates. This factor is accounted for in the tooling parameter in material grid.
The tooling factor can be experimentally established by following the guidelines in
If the Z-Ratio is not known, it could be estimated from the procedures outlined in
5.2 Determining Density
NOTE: The bulk density values retrieved from
are sufficiently accurate
for most applications.
Follow the steps below to determine density value.
1
Place a substrate (with proper masking for film thickness measurement)
adjacent to the sensor, so that the same thickness will be accumulated on the
crystal and substrate.
2
Set density to the bulk value of the film material or to an approximate value.
3
Set Z-Ratio to 1.000 and tooling to 100%.
4
Place a new crystal in the sensor and make a short deposition
(1000-5000 Å).
5
After deposition, remove the test substrate and measure the film thickness with
either a multiple beam interferometer or a stylus-type profilometer.
6
Determine the new density value with
:
[1]
Density g cm
3
D
1
T
x
T
m
-------
=