4 laboratory determination of zratio, 4 laboratory determination of z-ratio – INFICON XTM/2 Thin Film Deposition Monitor User Manual

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XTM/2 Operating Manual

5.4 Laboratory Determination of Z-ratio

A list of Z-values for materials commonly used is available in

Appendix A, Table

of Densities and Z-ratios

. For other materials, Z can be calculated from the

following formula:

[3]

[4]

where:

d

f

= density (g/cm

3

) of deposited film

µ

f

= shear modulus (dynes/cm

2

) of deposited film

d

q

= density of quartz (crystal) (2.649 gm/cm

3

)

µ

q

= shear modulus of quartz (crystal) (3.32 x 10

11

dynes/cm

2

)

The densities and shear moduli of many materials can be found in a number of
handbooks.

Laboratory results indicate that Z-values of materials in thin-film form are very
close to the bulk values. However, for high stress producing materials, Z-values
of thin films are slightly smaller than those of the bulk materials. For
applications that require more precise calibration, the following direct method
is suggested:

1

Using the calibrated density and 100% tooling, make a deposition such that
the percent crystal life display will read approximately 50%, or near the end
of crystal life for the particular material, whichever is smaller.

2

Place a new substrate next to the sensor and make a second, short
deposition (1000 - 5000Å).

3

Determine the actual thickness on the substrate (as suggested in density
calibration).

4

Adjust Z-ratio value in the instrument to bring the thickness reading in
agreement with actual thickness.

Z

d

q

µ

q

d

f

µ

f

-------------

⎝

⎠

⎜

⎟

⎛

⎞

1
2

---

=

Z

9.378

10

5

d

f

µ

f

(

)

-

1
2

---

Ч

=