Continued acts of terrorism using explosive materials throughout the world have led to great interest in explosives detection technology, especially technologies that have a potential for remote or standoff detection. This LDRD was undertaken to investigate the benefit of the possible use of quantum cascade lasers (QCLs) in standoff explosives detection equipment. Standoff detection of explosives is currently one of the most difficult problems facing the explosives detection community. Increased domestic and troop security could be achieved through the remote detection of explosives. An effective remote or standoff explosives detection capability would save lives and prevent losses of mission-critical resources by increasing the distance between the explosives and the intended targets and/or security forces. Many sectors of the US government are urgently attempting to obtain useful equipment to deploy to our troops currently serving in hostile environments. This LDRD was undertaken to investigate the potential benefits of utilizing quantum cascade lasers (QCLs) in standoff detection systems. This report documents the potential opportunities that Sandia National Laboratories can contribute to the field of QCL development. The following is a list of areas where SNL can contribute: (1) Determine optimal wavelengths for standoff explosives detection utilizing QCLs; (2) Optimize the photon collectionmore » and detection efficiency of a detection system for optical spectroscopy; (3) Develop QCLs with broader wavelength tunability (current technology is a 10% change in wavelength) while maintaining high efficiency; (4) Perform system engineering in the design of a complete detection system and not just the laser head; and (5) Perform real-world testing with explosive materials with commercial prototype detection systems.« less
[1]
J. Faist,et al.
Quantum cascade laser: a unipolar intersubband semiconductor laser
,
1994,
Proceedings of IEEE 14th International Semiconductor Laser Conference.
[2]
Frank K. Tittel,et al.
Semiconductor Laser Based Trace Gas Sensor Technology: Recent Advances and Applications
,
2008
.
[3]
R. A. McGill,et al.
Stand-off detection of trace explosives via resonant infrared photothermal imaging
,
2008
.
[4]
Jérôme Faist,et al.
High Performance Quantum Cascade Lasers and Their Applications
,
2003
.
[5]
M. Fraser,et al.
Application of quantum cascade lasers to trace gas analysis
,
2008
.
[6]
S. Bobrovnikov.
DEVELOPMENT OF METHODS AND EQUIPMENT FOR DETECTION OF EXPLOSIVES’ VAPORS IN THE ATMOSPHERE WITH LASER
,
2006
.