Del Mar Photonics Ge etalons

Quantum Cascade Lasers Calibration

Customer wrote:
My application is calibrate the relative wavelength of tunable quantum cascade lasers in the mid-infrared (~10 microns). The laser itself is used for remote sensing of atmospheric gases.

FSR (Free Spectral Range)  is determined by etalon length L and wavelength of operation λ

FSR= (λ2) / (2*n*L)

The most popular standard etalon is 1 inch long
For longer wavelength (> 10 micron) it's often necessary to use etalons 2-3 inches long to get required accuracy of calibration.

Del Mar Photonics offer variety of standard as well as custom germanium etalons.

 

Here are few examples of Ge etalon specifications:

Ge etalon part number #GEFPE1/0.5 request a quote - sold in Greyhawk Optics nline store as part number E-Ge-12.7-25.4
Length 1.00 +/- 0.01 inch
Diameter 0.50 +/- 0.05 inch
1/4 lambda flat each end, HeNe
parallel to 3 ARC SEC or better
length measure to 0.0005"
small bevels
surface quality F-f(80/50) per MIL-F-48616


Ge etalon part number #GEFPE3/1.25 - request a quote
Length 3.00 +/- 0.01 inch
Diameter 1.25+/- 0.05 inch
Other specification as in #GEFPE1/05
Ge etalon part number #GEFPE20mm/1.5


Ge etalon part number #GEFPE20mm/1.5 - request a quote
dia 38.1 (-0.1) mm
thickness: 20 (+/-0.1) mm
Flatness: 1 fringe ( Lambda/2 at 633 nm) , delta N = 0.2 fringes
Surface quality: 60-40 s/d
Parallelism: < 2 sec
Perpendicularity: 5 min

 

 Model   Product Name+   Buy Now 
 CPPE-Ge-38.1-4   Germanium circular plane parallel etalon, ø 38.1 mm x 4 mm  Buy Now 
 E-Ge-12.7-25.4   Germanium etalon, ø 12.7 mm x 25.4 mm (ø 0.5" x 1")  Buy Now 


 

Using Ge etalon in gas sensing project involving quantum cascade lasers


Jagadeeshwari (Esha) Manne, PhD student, University of Alberta

Project: Infrared absorption spectroscopy with Quantum cascade laser.

The advance of Quantum cascade (QC) lasers fabricated by band structure engineering offers an attractive new option for IR absorption spectroscopy. QC-DFB lasers are of particular interest to gas-sensing applications because they emit single frequency radiation which falls within the 3-15 um window, where the fundamental absorption bands of most of the molecules are located.

Research Activities:

  • QC laser characterization
  • Exploring different strategies for trace gas detection and comparing the detection limits and sensitivity for open-path measurements.

 

I am a graduate student pursuing my doctoral studies at the University of Alberta. The Ge- etalon will be used for non-profit research here at the university. I am presently working on a gas sensing project involving Quantum cascade laser.

The mid-IR region is ideally suited for absorption spectroscopy since the fundamental vibrational transitions of a number of molecules lie here. Quantum cascade (QC) lasers  fabricated by band structure engineering offer an attractive new option for sensitive IR absorption spectroscopy. Distributed feed-back pulsed QC lasers are of particular interest for they allow the realization of a room temperature, compact IR source with relatively high output power. In particular, their combination with the pulsed-CRDS technique has the potential for high sensitivity trace gas analysis. The goal of our present work is to develop a technique for quantitative online analysis of trace constituents in exhaled breath.  We are using pulsed-CRDS technique in combination with a mid IR QC laser operating near 970 cm-1 to measure ammonia levels in exhaled breath. An unlocked ring-down cavity was designed for these studies which can be operated at atmospheric or reduced pressure. We have already attained a detection limit of 25 ppb for ammonia. We are in a process of improving the system to get down to sub ppb levels with this technique.

The etalon will be used for characterization of the laser which would be an important step in choosing the right parameters for the laser for gas-sensing applications.

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