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Homepage>BS Standards>31 ELECTRONICS>31.260 Optoelectronics. Laser equipment>BS EN ISO 13696:2022 Optics and photonics. Test method for total scattering by optical components
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BS EN ISO 13696:2022 Optics and photonics. Test method for total scattering by optical components

BS EN ISO 13696:2022

Optics and photonics. Test method for total scattering by optical components

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Standard number:BS EN ISO 13696:2022
Pages:40
Released:2022-06-30
ISBN:978 0 539 03522 3
Status:Standard
BS EN ISO 13696:2022 - Optics and Photonics Standard

BS EN ISO 13696:2022 - Optics and Photonics. Test Method for Total Scattering by Optical Components

Standard Number: BS EN ISO 13696:2022

Pages: 40

Released: 2022-06-30

ISBN: 978 0 539 03522 3

Name: Optics and Photonics. Test Method for Total Scattering by Optical Components

Status: Standard

Overview

The BS EN ISO 13696:2022 standard is an essential document for professionals in the field of optics and photonics. This comprehensive standard provides a detailed test method for measuring total scattering by optical components, ensuring that you can achieve the highest levels of precision and accuracy in your work.

Why Choose BS EN ISO 13696:2022?

Optical components are critical in a wide range of applications, from scientific research to industrial processes. Ensuring the quality and performance of these components is paramount. The BS EN ISO 13696:2022 standard offers a robust and reliable method for assessing total scattering, which is a key parameter in determining the quality of optical components.

Key Features

  • Comprehensive Coverage: With 40 pages of detailed guidelines, this standard covers all aspects of the test method for total scattering by optical components.
  • Up-to-Date Information: Released on June 30, 2022, this standard reflects the latest advancements and best practices in the field of optics and photonics.
  • International Recognition: As an ISO standard, it is recognized and respected globally, ensuring that your work meets international benchmarks.
  • Precision and Accuracy: The test method outlined in this standard is designed to provide highly accurate and reliable results, helping you maintain the highest quality standards in your work.

Applications

The BS EN ISO 13696:2022 standard is applicable in various fields, including:

  • Scientific Research: Researchers in optics and photonics can use this standard to ensure the accuracy and reliability of their experimental results.
  • Industrial Manufacturing: Manufacturers of optical components can use this standard to maintain high quality and performance standards in their products.
  • Quality Control: Quality control professionals can use this standard to assess the total scattering of optical components, ensuring that they meet the required specifications.

Benefits

Adopting the BS EN ISO 13696:2022 standard offers numerous benefits, including:

  • Enhanced Quality: By following the guidelines in this standard, you can ensure that your optical components meet the highest quality standards.
  • Improved Performance: Accurate measurement of total scattering helps in optimizing the performance of optical components.
  • Global Acceptance: As an internationally recognized standard, it facilitates global collaboration and acceptance of your work.
  • Cost Efficiency: By ensuring the quality and performance of optical components, you can reduce the risk of defects and associated costs.

Structure and Content

The BS EN ISO 13696:2022 standard is meticulously structured to provide clear and concise guidelines. It includes:

  • Introduction: An overview of the importance of measuring total scattering in optical components.
  • Scope: Defines the scope of the standard and the types of optical components it covers.
  • Definitions: Key terms and definitions related to total scattering and optical components.
  • Test Method: Detailed step-by-step instructions for conducting the test, including equipment requirements, test setup, and procedures.
  • Data Analysis: Guidelines for analyzing the test data and interpreting the results.
  • Annexes: Additional information and examples to aid in the implementation of the test method.

Who Should Use This Standard?

The BS EN ISO 13696:2022 standard is designed for a wide range of professionals, including:

  • Optical Engineers: Engineers involved in the design and manufacturing of optical components.
  • Quality Control Specialists: Professionals responsible for ensuring the quality and performance of optical components.
  • Researchers: Scientists conducting research in the field of optics and photonics.
  • Manufacturers: Companies producing optical components for various applications.

Conclusion

The BS EN ISO 13696:2022 standard is an invaluable resource for anyone involved in the field of optics and photonics. By providing a detailed and reliable test method for measuring total scattering by optical components, it helps ensure the highest levels of quality and performance. Whether you are a researcher, engineer, quality control specialist, or manufacturer, this standard will help you achieve your goals and maintain the highest standards in your work.

DESCRIPTION

BS EN ISO 13696:2022


This standard BS EN ISO 13696:2022 Optics and photonics. Test method for total scattering by optical components is classified in these ICS categories:
  • 37.020 Optical equipment
  • 31.260 Optoelectronics. Laser equipment
This document specifies procedures for the determination of the total scattering by coated and uncoated optical surfaces. Procedures are given for measuring the contributions of the forward scattering or backward scattering to the total scattering of an optical component. This document applies to coated and uncoated optical components with optical surfaces that have a radius of curvature of more than 10 m. Measurement wavelengths covered by this document range from the ultraviolet above 250 nm to the infrared spectral region below 15 µm. For measurements in the deep ultraviolet between 190 nm to 250 nm, specific methods are considered and are described. Generally, optical scattering is considered as neglectable for wavelengths above 15 µm.