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Interference and Diffraction02:18

Interference and Diffraction

Interference is a characteristic phenomenon exhibited by waves. When two electromagnetic waves interact with their peaks and troughs coinciding, a resulting wave with enhanced amplitude is produced. This is known as constructive interference. In this case, the two waves interacting are in phase with each other.
Unsymmetric Bending - Angle of Neutral Axis01:15

Unsymmetric Bending - Angle of Neutral Axis

Unsymmetrical bending occurs when a structural member is subjected to bending moments in a plane that does not align with the member's principal axes. This scenario typically arises in beams and other structural components when loads are applied at non-ideal angles, introducing complexities in stress analysis.
When a bending moment is applied at an angle θ concerning the vertical axis of a symmetrical member, it can be resolved into components along the member's principal centroidal axes. The...
Imperfections in Crystal Structure: Point, Line and Plane Defects01:25

Imperfections in Crystal Structure: Point, Line and Plane Defects

A perfect crystal, in theory, has a uniform structure with the same unit cell and lattice points throughout. However, any deviation from this periodic arrangement is known as an imperfection or defect. These defects can be categorized into three types: point, line, and plane defects.Point defects occur when there is a deviation from the ideal due to missing atoms, displaced atoms, or additional atoms. These imperfections might occur due to imperfect packing during crystallization or because of...
Torsion of Noncircular Members01:16

Torsion of Noncircular Members

Circular shafts undergoing torsional stress maintain their cross-sectional integrity due to their axisymmetric nature. This symmetry ensures an even distribution of stress, allowing the shaft to withstand torsion without distorting. In contrast, square bars, lacking this axial symmetry, experience significant distortion across their cross-sections when subjected to torsion, with the exception of along their diagonals and at lines connecting midpoints. A detailed examination of a cubic element...
Deformations in a Symmetric Member in Bending01:18

Deformations in a Symmetric Member in Bending

When analyzing the deformation of a symmetric prismatic member subjected to bending by equal and opposite couples, it becomes clear that as the member bends, the originally straight lines on its wider faces curve into circular arcs, with a constant radius centered at a point known as Point C. This phenomenon helps to understand the stress and strain distribution within the member more clearly.
When the member is segmented into tiny cubic elements, it is observed that the primary stress...
Transformation of Plane Stress01:18

Transformation of Plane Stress

Studying stress transformation is essential in understanding how stress components within a material, like a cube under plane stress, change with rotation. This change is analyzed by considering a prismatic element within the cube. As the element rotates, the stress components acting on it—both normal and shearing stresses—change in magnitude and orientation. This change is quantified using trigonometric functions of the rotation angle, relating the forces acting on the rotated element's faces...

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Related Experiment Video

Updated: Jun 10, 2026

Micro/Nano-scale Strain Distribution Measurement from Sampling Moiré Fringes
06:56

Micro/Nano-scale Strain Distribution Measurement from Sampling Moiré Fringes

Published on: May 23, 2017

Line-shape distortions in misaligned cube corner interferometers.

J Kauppinen, P Saarinen

    Applied Optics
    |August 19, 2010
    PubMed
    Summary

    Misaligned mirrors in Fourier transform spectrometers distort spectral lines. This study presents a method to correct these distortions, improving spectral line accuracy for high-resolution spectroscopy.

    Area of Science:

    • Spectroscopy
    • Optical Engineering

    Background:

    • Fourier transform spectrometers (FTS) are crucial for high-resolution spectroscopy.
    • Misalignment of the moving cube mirror in FTS can cause significant line-shape distortions.
    • Accurate spectral line positioning is vital for precise spectroscopic analysis.

    Purpose of the Study:

    • To describe line-shape distortions in FTS caused by moving cube mirror misalignment.
    • To present a novel method for studying and correcting these distortions.
    • To enhance the accuracy of spectral line position estimation in high-resolution FTS.

    Main Methods:

    • Detailed analysis of line-shape distortions originating from cube mirror misalignment.
    • Development of a systematic approach to quantify and correct these spectral artifacts.

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  • Validation of the proposed method through computational simulations.
  • Main Results:

    • The presented method effectively identifies and quantifies line-shape distortions.
    • Correction using this method significantly improves the accuracy of spectral line positions.
    • The method has been successfully applied to align the Oulu Fourier transform spectrometer.

    Conclusions:

    • The developed method provides a reliable way to study and correct mirror misalignment-induced distortions in FTS.
    • This technique is essential for achieving high accuracy in high-resolution Fourier transform spectroscopy.
    • The practical application demonstrates the method's efficacy in real-world spectrometer alignment.