BS ISO 13142:2021 - Optics and Photonics: Lasers and Laser-Related Equipment

Welcome to the world of precision and innovation with the BS ISO 13142:2021 standard, a pivotal document in the field of optics and photonics. This standard is an essential resource for professionals and researchers who are engaged in the development, testing, and application of laser technologies. Released on June 11, 2021, this standard is a testament to the latest advancements in laser measurement techniques.

Overview

The BS ISO 13142:2021 standard provides comprehensive guidelines on the Cavity Ring-Down Method for measuring high-reflectance and high-transmittance properties of optical components. This method is renowned for its precision and reliability, making it a cornerstone in the evaluation of laser-related equipment. With a total of 26 pages, this document is meticulously crafted to ensure clarity and ease of understanding for its users.

Key Features

• Standard Number: BS ISO 13142:2021
• Pages: 26
• Release Date: June 11, 2021
• ISBN: 978 0 539 02554 5
• Status: Standard

Why Choose BS ISO 13142:2021?

In the rapidly evolving field of optics and photonics, staying ahead of the curve is crucial. The BS ISO 13142:2021 standard equips you with the knowledge and methodologies needed to achieve unparalleled accuracy in your measurements. Whether you are involved in research, manufacturing, or quality assurance, this standard is designed to enhance your capabilities and ensure that your work meets the highest international standards.

Precision and Reliability

The Cavity Ring-Down Method outlined in this standard is a highly sensitive technique that allows for the precise measurement of optical properties. This method is particularly effective in assessing the performance of high-reflectance and high-transmittance components, which are critical in a wide range of applications, from telecommunications to medical devices.

Comprehensive Guidance

With detailed instructions and clear illustrations, the BS ISO 13142:2021 standard provides a step-by-step approach to implementing the Cavity Ring-Down Method. This ensures that even those new to the technique can quickly grasp its principles and apply them effectively in their work.

Global Recognition

As an internationally recognized standard, the BS ISO 13142:2021 is a valuable asset for any organization looking to demonstrate its commitment to quality and innovation. By adhering to this standard, you can assure your clients and partners of your dedication to maintaining the highest levels of precision and reliability in your optical measurements.

Applications

The applications of the BS ISO 13142:2021 standard are vast and varied. It is particularly beneficial for industries that rely on high-performance optical components, including:

• Telecommunications: Ensuring the efficiency and reliability of fiber optic networks.
• Medical Devices: Enhancing the accuracy of diagnostic and therapeutic equipment.
• Aerospace: Improving the performance of optical systems used in navigation and communication.
• Research and Development: Facilitating cutting-edge research in photonics and laser technologies.

Conclusion

The BS ISO 13142:2021 standard is more than just a document; it is a gateway to excellence in the field of optics and photonics. By integrating this standard into your operations, you can unlock new levels of precision and innovation, ensuring that your work remains at the forefront of technological advancement. Embrace the future of laser measurement with the BS ISO 13142:2021 standard and set a new benchmark for quality and performance in your industry.

BS ISO 13142:2021

This standard BS ISO 13142:2021 Optics and photonics. Lasers and laser-related equipment. Cavity ring-down method for high-reflectance and high-transmittance measurements is classified in these ICS categories:

• 31.260 Optoelectronics. Laser equipment

This document specifies measurement procedures for the precise determination of the high reflectance or high transmittance (>99 %) of optical laser components.

The methods given in this document are intended to be used for the testing and characterization of high reflectance of both concave and plane mirrors or high transmittance of plane windows used in laser systems and laser-based instruments. The reflectance of convex mirrors or transmittance of positive or negative lenses can also be tested by taking into consideration the radius of curvature of the mirror surface or the focal length of the lens. This document is complementary to ISO 15368 which specifies the measurement procedures for the determination of reflectance and transmittance of optical components with spectrophotometry. ISO 15368 is applicable to the measurements of reflectance and transmittance in the range from 0 % to 100 % with a typical accuracy of ±0,3 %, and is therefore not applicable to the precise measurements of reflectance and transmittance higher than 99,9 %.