Application Note

How To Maximize Gas Detection Performance By Using The Multi-Gas Sensing VAPIR™ Lenses

Source: G&H
GettyImages-1093678798 engineer gas pipes

Infrared (IR) imaging, once a military innovation, has evolved into a cornerstone of civilian safety technology, particularly in gas detection. Optical Gas Imaging (OGI) has revolutionized the industry, allowing us to "see" gases previously invisible to the naked eye. Among the cutting-edge technologies emerging in this realm, the Multi-Wavelength Infrared (MWIR) cameras stand out, offering enhanced sensitivity and precision.

The key to maximizing the performance of these MWIR cameras lies in their lenses. Specifically designed for gas visualization, these lenses are the linchpin of accurate detection. Take, for instance, Gooch & Housego's VAPIR Series™, a testament to decades of research and development.

But what sets these lenses apart? Sensitivity is paramount; the VAPIR™ series boasts a high degree of detection sensitivity, crucial for spotting even the faintest of leaks. Additionally, their wide-field imaging capabilities and high resolution ensure no detail goes unnoticed, while their proximity capabilities and accessibility make them a versatile solution for various industries.

However, these lenses aren't just about detection—they're about fostering a culture of safety. By visualizing gas leaks accurately, they become indispensable tools in risk mitigation, contributing to increased trust, proactive emergency responses, and continuous safety improvement.

Discover how these lenses redefine gas detection, from enhancing sensitivity to facilitating wide-field imaging, all while ensuring product accessibility and tailored solutions.

access the Application Note!

Get unlimited access to:

Trend and Thought Leadership Articles
Case Studies & White Papers
Extensive Product Database
Members-Only Premium Content
Welcome Back! Please Log In to Continue. X

Enter your credentials below to log in. Not yet a member of Photonics Online? Subscribe today.

Subscribe to Photonics Online X

Please enter your email address and create a password to access the full content, Or log in to your account to continue.

or

Subscribe to Photonics Online