Time Resolved Characterization of Fabry-Perot Quantum Cascade Lasers for Use in a Broadband "White Light" Source
Abstract
We report the time resolved characterization of Fabry-Perot quantum cascade lasers (FP-QCLs). We are developing a custom-built broadband laser source in the Mid-LWIR range by combining several high power FP-QCLs for a single snap shot application. This white light source would enable not only stand-off detection applications in a single snapshot but also new data collection modalities such as live, real-time chemical imaging, requiring extremely rapid measurements. In this study, the two FP-QCLs were operated in CW and pulsed modes with varying applied currents and diode temperatures to optimize the best laser operation condition to cover a broad spectral range including spectral features for the analytes of interest. To understand mode behavior of the FP-QCLs in a short period of time, the spectral output for each test condition was temporally resolved. Under most of the conditions, FP mode hopping was observed during the time evolution through the pulse length (30(X) ns). Based on the time-resolved spectra, the ideal spectral characteristics for a single snap shot application are discussed, with respect to a broad spectral bandwidth, a flat-top power profile, and high spectral power density.
Document Details
- Document Type
- Technical Report
- Publication Date
- Oct 24, 2019
- Accession Number
- AD1099943
Entities
People
- Christopher A. Kendziora
- Christopher J. Breshike
- Richard A. Mcgill
- Robert B Balow
- Robert Furstenberg
- Seokmin Jeon
- Yohan Yoon
Organizations
- United States Naval Research Laboratory