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Distance Corrections01:15

Distance Corrections

To achieve precise distance measurements, especially in surveying and construction, certain corrections must be applied to account for potential sources of error like the standardization errors, temperature variations, and slope adjustments.Standardization error emerges when measurement equipment undergoes changes, such as wear, repairs, or weather impacts. To address this, surveyors compare the equipment’s readings to a standard. This process identifies any deviation that might lead to...
Focusing of Light in the Eye01:16

Focusing of Light in the Eye

Light rays enter the eye through the cornea, a transparent dome-shaped tissue that is the eye's outermost layer. The cornea bends or refracts, light rays traveling to the pupil. The shape of the cornea determines how much of the light is bent and whether the image will be focused correctly on the retina at the back of the eye. Once the light has passed through both refraction layers, it converges into a single focal point onto a small area. This is where photoreceptors start transforming...
Influence of Earth's Curvature and Atmospheric Refraction on Leveling01:26

Influence of Earth's Curvature and Atmospheric Refraction on Leveling

During leveling, the Earth's curvature and atmospheric refraction introduce deviations in the line of sight from a true horizontal reference. When the line of sight is leveled, it remains perpendicular to the plumb line only at a single point. Beyond this, it deviates due to the Earth’s curvature, represented by the correction C. For a sight distance D, the deviation can be derived using the relationship:This relationship shows that the deviation increases quadratically with distance. Over a...
Adjusting a Traverse01:12

Adjusting a Traverse

In the site survey of a four-sided traverse, internal angles are essential to ensure geometric accuracy. The survey revealed that the sum of the measured internal angles was 359 degrees and 48 minutes, which is 12 minutes less than the expected 360 degrees. This discrepancy signals an error likely arising from measurement inaccuracies during the fieldwork.To rectify this error, the adjustment process involved distributing the 12-minute shortfall equally across the four internal angles. By...
Common Leveling Mistakes and Errors01:17

Common Leveling Mistakes and Errors

A survey team is tasked with determining the elevation difference between points Point A and Point B, separated by uneven terrain. They use a leveling instrument and a leveling rod.Common MistakesMisreading the Rod: During a backsight reading at Point A, the instrumentman observes the rod partially obscured by tall grass. Instead of reading 1.135 m, they mistakenly record 1.735 m due to the misalignment of the crosshair with the wrong graduation. This error adds 0.600 m to all subsequent...
Types of Errors: Detection and Minimization01:12

Types of Errors: Detection and Minimization

Error is the deviation of the obtained result from the true, expected value or the estimated central value. Errors are expressed in absolute or relative terms.
Absolute error in a measurement is the numerical difference from the true or central value. Relative error is the ratio between absolute error and the true or central value, expressed as a percentage.
Errors can be classified by source, magnitude, and sign. There are three types of errors: systematic, random, and gross.
Systematic or...

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Related Experiment Video

Updated: Jun 20, 2026

Correction of Presbyopia by Monocular Bi-Aspheric Ablation Profile
05:46

Correction of Presbyopia by Monocular Bi-Aspheric Ablation Profile

Published on: September 20, 2024

Aberration correction past and present.

P W Hawkes1

  • 1CEMES-CNRS, , B.P. 94347, 31055 Toulouse cedex, France. hawkes@cemes.fr

Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences
|August 19, 2009
PubMed
Summary
This summary is machine-generated.

Electron lenses suffer from poor performance due to inherent aberrations. Historical efforts and modern innovations, like quadrupole-octupole correctors, have significantly improved electron lens design and imaging capabilities.

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Comparison of Agreement and Accuracy using Binocular Wavefront Optometer with Autorefractor and Phoropter
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High-Accuracy Correction of 3D Chromatic Shifts in the Age of Super-Resolution Biological Imaging Using Chromagnon
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High-Accuracy Correction of 3D Chromatic Shifts in the Age of Super-Resolution Biological Imaging Using Chromagnon

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Last Updated: Jun 20, 2026

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High-Accuracy Correction of 3D Chromatic Shifts in the Age of Super-Resolution Biological Imaging Using Chromagnon
08:18

High-Accuracy Correction of 3D Chromatic Shifts in the Age of Super-Resolution Biological Imaging Using Chromagnon

Published on: June 16, 2020

Area of Science:

  • Physics
  • Optics
  • Electron Microscopy

Background:

  • Electron lenses exhibit significant spherical and chromatic aberrations, limiting imaging resolution.
  • Otto Scherzer's 1936 proof highlighted the fundamental difficulty in correcting these aberrations in rotationally symmetric electron lenses.

Purpose of the Study:

  • To review historical and contemporary approaches to correcting electron lens aberrations.
  • To analyze the development and implementation of advanced aberration correctors.

Main Methods:

  • Historical review of aberration correction proposals, including early work by Scherzer and Gabor's holography.
  • Analysis of the technological advancements leading to quadrupole-octupole and sextupole correctors.
  • Discussion of image algebra's role in electron optics.

Main Results:

  • Early proposals for aberration correction were made in the mid-20th century.
  • Successful implementation of quadrupole-octupole and sextupole correctors occurred in the 1990s.
  • Image algebra provides a framework for understanding image formation and developing new methods.

Conclusions:

  • Significant progress has been made in overcoming electron lens aberrations.
  • Advanced corrector technologies have revolutionized electron microscopy.
  • Image algebra is a powerful tool for advancing electron optics.