614-62

Magnification Calibration MRS-3 - Specimen Mount

Mounting MRS-3/4 Retainer

  • Mounting MRS-3/4 Retainer on 1" (25.4mm) Pin Stub with a 1/8" (3.2mm) pin, for #614-5 only
    Mounting MRS-3/4 Retainer on Hitachi Ø25x10mmxM4 Cylinder Mount, for #614-5 only

    The 10 x 50,000x Pitch Standard for Scanning Electron Microscopy

    Details of Traceability to NIST, NPL or ISO 9000 Compliance


    Applications

    1. Electron microscopy - SEM, in both SE and BSE mode, SEM/FIB and TEM (with special version)
    2. Scanning Microscopies and Profilometry - STM, AFM, the pattern height is 100nm
    3. Optical Microscopy - transmitted, reflected, bright/dark field, differential contrast and confocal
    4. Chemical mapping - EDS, WDS, XRF, XPS, Auger and others. The pattern is fabricated using 100nm CrO2 and Cr on quartz
    5. Particle Size Counting - series of circles, squares and rectangles for calibration confirmation

    Pattern Design

    The MRS-3 is fabricated using the high accuracy direct write electron beam manufacturing equipment. The pattern is anti-reflective chromium (30nm Cr2O over 70nm CR) on quartz. Imaging in both secondary and back scattered mode is very high. The pattern is coated with a proprietary conductive material which allows for SEM imaging at any accelerating voltage.

    Geometric Design

    The MRS-3 has groups of nested squares with pitches of 2µm, 50µm and 500µm.  The largest pattern has an overall dimension of 8mm square with lines and spaces of 250µm. This can be used to check magnifications between 10 - 100x, The 50µm pitch patterns are useful from 100 - 1000x magnifications. The 2µm pitch allows calibrations up to 50,000x.

    Dimensions/Retainers

    The overall size of the MRS-3 is approx. 9 x 9 x 2.3mm. Since the standard is made on quartz, it easily chips. We highly recommend ordering the optional protective retainers for the MRS-3.


    Optional Protective Retainer 614-5 and Optional Pin Stub Mounting 614-62   Optical Microscope Adapter OM/R 614-6


    The standard is mounted in the retainers using an ultra high vacuum compatible, conductive silver epoxy. There is a choice of two optional retainers:

    1. #614-5 – SEM/R which is 25mm in diameter with a thickness of 3mm. Can be used for optical transmitted light, SEM, FIB and SPM applications. Material is aluminum, Ni plated. Standard recessed: 0.5mm
    2. #614-6 – OM/R which is the 44.5 x 25.4 x 3.2mm optical microscope adapter, fits easily on light microscopes. Material is aluminum. Standard is slightly recessed; 0.13mm.

    The #614-5 SEM/R protective retainer can be mounted on a 25mm pin stub as an option (order #614-62)or a Ø25 x 10mm x M4 cylinder mount (order #614-63) as an option.

    A special version of the MRS-3 is available for (S)TEM with a 3mm diameter and a thickness and a thickness of 500µm. This will only show the central features and can be viewed with secondary and backscattered electrons, not with transmitted electrons.

    Accuracy

    Measurements by the NPL in the UK (counterpart of NIST) have demonstrated that the accuracy of the 500µm pitch pattern was ±0.25µm and ±0.1µm for the 50µm and 2µm patterns. It goes without saying that these reported results from NPL are highly conservative. Our customers have also sent MRS-3's to NIST. The NIST data shows better accuracy than NPL reports.

    Certification Report

    The certification is done following ISO guidelines. Each MRS-3 has a unique serial number engraved on the standard. Certification includes the serial number, certification date, operator, instrumentation used, actual pattern measurements and measure of accuracy.

    MRS-3 is more radiation resistant. (It handles about 10x the electron beam current density and provides higher scanning electron microscopy imaging contrast, even at 500eV. Patterns have been added to help calibrate particle size counting systems and determine the spatial resolution in video and surface chemical imaging systems. Highest accuracy equipment used.
    Measurements in the X-Y Plane can be certified to NIST and NPL standards. Z plane measurements are traceable to a NIST standard only.

    NIST = National Institute of Standards and Technology, USA

    NPL = National Physical Laboratories, UK (counterpart of NIST)