16465-2D-AFM
Precision, holographic pattern providing accurate calibration in the horizontal plane for very high resolution, nanometer-scale measurements with 144nm pitch.
Period: 144nm pitch, two-dimensional array. Accurate to ±1nm. Refer to calibration certificate for actual pitch.
Surface: Aluminum bumps on Silicon, 4x3mm die. Bump height (about 90nm) and width (about 75nm) are not calibrated.
Usability: the calibrated pattern covers the entire chip. There is sufficient usable area to make tens of thousands of measurements without reusing any areas altered or contaminated by previous scans.
AFM: use in contact, intermittent contact (TappingMode™ ) and other modes with image sizes from 250nm to 10µm. Available unmounted or mounted on 12mm steel disks.
SEM: this specimen works well at all accelerating voltages. Normally supplied unmounted. Can be mounted on a stub of your choice of See Mount Selections A-R.
Model 2D: This Calibration Reference specimen comes with a non-traceable, manufacturer’s certificate. This states the average period, based on batch measurements.
See Sample Certificate
Model 2DUTC: This Traceable, Certified Standard is a select grade. Each standard is individually measured in comparison with a similar specimen calibrated at PTB. (PTB, Physikalisch-Technischen Bundesanstalt, is the German counterpart of NIST.) The uncertainty of single pitch values is typically ±1.4nm (95% confidence interval). Multi-pitch measurements provide the usual square-root of N improvement in precision.
Model 2DUTC Sample Certificate (PDF 111KB)
Easy to use
The 2D holographic Array with 144nm is recommended because of the unique characteristics that make it especially easy to use. The pattern is durable and allows for scanning in contact mode, which means that calibration and measurements are faster. This is the only high resolution 2D calibration standard we know of that has all of the following characteristics that are needed for ease of use:
Medium Magnification
At 5 kX, the individual bumps were still well-resolved. Large fields of view show how few defects are present. The most common defects are single missing bumps or a single extra bump inserted between lattice positions. Two vacancies are present in the image shown here.
Available unmounted, on a 12mm AFM disc or on SEM stubs: SEM Mount Selections A-R.