Data Analysis Sheet L.4

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Data analysis sheet for in-plane linelength measurements with two ends unanchored

Top view of ring test structure depicting the measurement to be made.

Figure L.4.1. Top view of ring test structure depicting the measurement to be made.

To obtain the following measurements, consult ASTM standard test method E 2244 entitled
"Standard Test Method for In-Plane Length Measurements of Thin, Reflecting Films
Using an Optical Interferometer."

filename of 3-D data set (optional)   =
filename of 2-D data trace (optional) =
material = Poly1       Poly2      stacked Poly1 and Poly2
                 SiC-2      SiC-3
design length (optional) = µm
which ring (from left-to-right or top-to-bottom) on the round robin test chip ?
     First      Second      Third     Fourth      Fifth     Sixth
magnification = ×
orientation =  0 degree      90 degree
x-calibration factor (for the given magnification) = calx =
interferometer's maximum field of view (for the given magnification) = interx = µm
one sigma uncertainty in a ruler measurement (for the given mag) = σ_xcal = µm
resolution of the interferometer in the x-direction = x_res = µm
z-calibration factor (for the given magnification) = calz =
alignment ensured ?   Yes      No
data leveled ?   Yes      No

INPUTS (uncalibrated values):
              x1_max (i.e., x1_lower) = µm
              x1_min (i.e., x1_upp_er) = µm        (x1_min > x1_max)
              x2_min (i.e., x2_upper) = µm        (x2_min > x1_min)
              x2_max (i.e., x2_lower) = µm        (x2_max > x2_min)

OUTPUTS (calibrated values):
            L_min = ( x2_min − x1_min ) * calx = µm
            L_max = ( x2_max − x1_max ) * calx = µm
            L = (L_min + L_max ) / 2 = µm
                     u_L = (L_max − L_min ) / 6 = µm
                     u_xcal = (σ_xcal / interx) * ( L / calx ) = µm
                     u_xres = x_res * calx / 1.732 = µm
            u_c = SQRT [ u_L² + u_xcal² + u_xres² ] = µm

Modify the input data, given the information supplied in any flagged statement below, if applicable, then recalculate:
    1. Please fill out the entire form.
    2. Is the magnification appropriate for the given measurement ?
    3. Magnifications at or less than 2.5× shall not be used.
    4. Is 0.95 < calx < 1.05 but not equal to "1" ? If not, recheck your x-calibration.
    5. The value for interx should be between 0 µm and 1500 µm.
    6. The value for σ_xcal should be between 0 µm and 4 µm.
    7. The value for x_res should be between 0 µm and 1.57 µm.
    8. Is 0.95 < calz < 1.05 but not equal to "1" ? If not, recheck your z-calibration.
    9. Alignment has not been ensured.
10. Data has not been leveled.
  11. x1_min should be greater than x1_max.
12. x2_min should be greater than x1_min.
13. x2_max should be greater than x2_min.
14. The calibrated values for x1_min and x1_max are greater than 10 µm apart.
15. The calibrated values for x2_min and x2_max are greater than 10 µm apart.

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NIST is an agency of the U.S. Commerce Department
The Semiconductor Electronics Division is within the Electronics and Electrical Engineering Laboratory.
The MNT Project (http://www.eeel.nist.gov/812/MNT/index.html) is within the Enabling Devices and ICs Group.

Date created: 12/4/2000
Last updated: 1/11/2008