QCL and MEMS device enables real-time monitoring and sensing of atmospheric explosive vapors

Feb. 29, 2016

Researchers have developed a multimodal sensing system for explosive vapors that uses a microthermometer/microheater device (see figure) and a widely tunable quantum cascade laser (QCL). To further enhance the sensitivity and selectivity of the MEMS devices, they will integrate a compact micro preconcentrator in the same chip to achieve higher vapor collection efficiency for target explosive vapors.

Researchers have developed a multimodal sensing system for explosive vapors that uses a microthermometer/microheater device and a widely tunable quantum cascade laser (QCL). To further enhance the sensitivity and selectivity of the MEMS devices, they will integrate a compact micro preconcentrator in the same chip to achieve higher vapor collection efficiency for target explosive vapors.

QCL and MEMS device enables real-time monitoring and sensing of atmospheric explosive vapors

Continue Reading

Is your Quantum 2.0 solution stable enough?

OPTICAL TESTING: Grating interferometer measures large departures

Sponsored Recommendations

Request a quote: Micro 3D Printed Part or microArch micro-precision 3D printers

Request a free Micro 3D Printed sample part

How to Tune Servo Systems: The Basics

Precision Motion Control for Sample Manipulation in Ultra-High Resolution Tomography

Voice your opinion!

To join the conversation, and become an exclusive member of Laser Focus World, create an account today!

New

Why it’s vital to push government statistical agencies to track the photonics industry

What tips or how-tos in photonics technologies interest you?

Photonics Hot List: April 12, 2024

Most Read

Photonics Hot List: April 12, 2024

Nonmetallic quantum dots are nontoxic alternative to metallic cousins

In memoriam: Joseph Izatt, OCT imaging pioneer

Sponsored

Techniques for Analyzing Lens Manufacturing Data

Ordering at Optimax: OPTICS YOU NEED FAST AND ACCURATE

Optics for HIGH POWER