Wavelength of Diode Laser using Diffraction Grating | AE 1034 | ASICO

Description

Specifications Table

Product Material – Glass with aluminum coating

Grade – Laboratory/Research

Application – Wavelength measurement, optics experiments

Product Overview

This diffraction grating is engineered for precise wavelength measurement of diode lasers, offering exceptional clarity and accuracy in optical experiments. Constructed from high-quality glass with a reflective aluminum coating, it ensures minimal light loss and maximum diffraction efficiency. The grating’s fine line density (typically 600 lines/mm) produces sharp, well-defined spectral lines, making it ideal for educational and research applications where precision is critical. Its durable design resists scratches and environmental wear, ensuring long-term reliability in lab settings. Whether used in physics demonstrations or advanced optical studies, this grating delivers consistent performance, allowing users to achieve repeatable results. The compact and lightweight form factor enhances ease of handling, while its compatibility with standard laser setups simplifies integration into existing experimental configurations. Designed to meet rigorous laboratory standards, this diffraction grating is a dependable tool for accurate wavelength analysis.

FAQs

1. What material is used in this diffraction grating?

It is made of glass with an aluminum coating for enhanced reflectivity and durability.

2. Can this grating be used with other types of lasers?

While optimized for diode lasers, it can also work with other coherent light sources within its wavelength range.

3. How should I store this diffraction grating to maintain its quality?

Store it in a dry, dust-free environment, preferably in a protective case to prevent scratches.

4. Is this grating suitable for educational experiments?

Yes, its precision and ease of use make it ideal for academic and training purposes.

5. What alternatives exist for measuring laser wavelengths?

Alternatives include spectrophotometers or interferometers, but diffraction gratings offer a cost-effective solution.