BS ISO 17915:2018 - Optics and Photonics: Measurement Method of Semiconductor Lasers for Sensing

Discover the essential standard for the optics and photonics industry with the BS ISO 17915:2018. This comprehensive document provides a detailed measurement method for semiconductor lasers used in sensing applications, ensuring precision and reliability in your optical and photonic projects.

Overview

The BS ISO 17915:2018 standard is a crucial resource for professionals in the field of optics and photonics. Released on May 31, 2018, this standard offers a structured approach to measuring semiconductor lasers, which are pivotal in various sensing technologies. With a total of 38 pages, it provides in-depth guidance and methodologies to ensure accurate and consistent results.

Key Features

• Standard Number: BS ISO 17915:2018
• Pages: 38
• Release Date: 2018-05-31
• ISBN: 978 0 580 97243 0
• Status: Standard

Why Choose BS ISO 17915:2018?

In the rapidly evolving field of optics and photonics, maintaining accuracy and consistency in measurements is paramount. The BS ISO 17915:2018 standard is designed to meet these needs by providing a robust framework for the measurement of semiconductor lasers. This ensures that your sensing applications are not only precise but also adhere to international standards, enhancing the credibility and reliability of your work.

Precision and Reliability

Semiconductor lasers are integral to a wide range of sensing applications, from environmental monitoring to industrial automation. The BS ISO 17915:2018 standard ensures that these lasers are measured with the highest level of precision, reducing errors and improving the overall quality of your sensing systems.

Comprehensive Guidance

With 38 pages of detailed information, this standard provides comprehensive guidance on the measurement methods for semiconductor lasers. It covers various aspects of measurement, including setup, calibration, and data analysis, ensuring that you have all the information you need to achieve accurate results.

International Recognition

As an internationally recognized standard, the BS ISO 17915:2018 provides a benchmark for quality and consistency in the optics and photonics industry. By adhering to this standard, you demonstrate your commitment to excellence and align your work with global best practices.

Applications

The BS ISO 17915:2018 standard is applicable to a wide range of industries and applications, including:

• Environmental Monitoring: Ensure accurate measurements in air quality and pollution monitoring systems.
• Industrial Automation: Enhance the precision of laser-based sensors in manufacturing and production lines.
• Medical Devices: Improve the reliability of laser-based diagnostic and therapeutic equipment.
• Telecommunications: Optimize the performance of laser components in fiber optic communication systems.

Conclusion

The BS ISO 17915:2018 standard is an indispensable tool for professionals in the optics and photonics industry. By providing a detailed measurement method for semiconductor lasers, it ensures that your sensing applications are both precise and reliable. Whether you are involved in environmental monitoring, industrial automation, or telecommunications, this standard offers the guidance you need to achieve excellence in your field.

Embrace the power of precision and reliability with the BS ISO 17915:2018 standard and elevate your optical and photonic projects to new heights.

BS ISO 17915:2018

This standard BS ISO 17915:2018 Optics and photonics. Measurement method of semiconductor lasers for sensing is classified in these ICS categories:

• 31.260 Optoelectronics. Laser equipment

This document describes methods of measuring temperature and injected current dependence of lasing wavelengths, and lasing spectral line width in relation to semiconductor lasers for sensing applications.

This document is applicable to all kinds of semiconductor lasers, such as edge-emitting type and vertical cavity surface emitting type lasers, bulk-type and (strained) quantum well lasers, and quantum cascade lasers, used for optical sensing in e.g. industrial, medical and agricultural fields.