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Atomic Force Microscopy01:08

Atomic Force Microscopy

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Atomic force microscopy (AFM) is a type of scanning probe microscopy that can analyze topographic details of various specimens like ceramics, glass, polymers, and biological samples. AFM offers over 1000 times more resolution than the optical imaging system. Images generated from AFM are three-dimensional surface profiles, offering an advantage over the flat, two-dimensional images from other imaging techniques.
The AFM Probe
The probe is regarded as the heart of any AFM setup and comprises the...
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Related Experiment Video

Updated: Mar 31, 2026

Characterization of Surface Modifications by White Light Interferometry: Applications in Ion Sputtering, Laser Ablation, and Tribology Experiments
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High-resolution moiré interferometry for quantitative low-cost, real-time surface profilometry.

J Josiah Steckenrider, J Scott Steckenrider

    Applied Optics
    |October 20, 2015
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    Summary
    This summary is machine-generated.

    This study introduces an affordable, portable optical profilometry system for real-time 3D surface imaging. The device achieves micro-meter precision for analyzing reflective surfaces, enabling detailed contour mapping.

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    Area of Science:

    • Optical Engineering
    • Metrology
    • Surface Science

    Background:

    • Accurate surface characterization is crucial in various scientific and industrial fields.
    • Existing profilometry techniques can be expensive, bulky, or slow.
    • There is a need for cost-effective, portable solutions for real-time surface analysis.

    Purpose of the Study:

    • To develop and present a novel two-dimensional optical profilometry system.
    • To achieve high-precision surface measurement using fringe projection and image processing.
    • To create an inexpensive and portable device capable of real-time 3D surface contour imaging.

    Main Methods:

    • Development of a two-dimensional optical profilometry system utilizing fringe projection.
    • Implementation of advanced image processing algorithms for data analysis.
    • Integration of components to enable video frame rate image acquisition and analysis.

    Main Results:

    • The system achieves micro-meter scale precision (μm).
    • It operates at video frame rates, allowing for real-time analysis.
    • The device can resolve surface features with lateral resolution <50 μm and height resolution <15 μm.
    • It successfully interrogates uniformly reflective surfaces over an area of ~10 cm².

    Conclusions:

    • The developed optical profilometry system offers a cost-effective and portable solution for 3D surface imaging.
    • The system provides high-precision, real-time analysis of surface contours.
    • This technology has potential applications in fields requiring detailed surface metrology.