A miniaturized 3D printed photoacoustic trace gas sensor is presented, using a mid-infrared QCL at 5.26µm as excitation source. Its performance for sensing CH4 resulted in a normalized noise equivalent absorbance of 7.7·10-9cm-1WHz-½
The application of compact inexpensive trace gas sensor technology to a mid-infrared nitric oxide (N...
The photoacoustic effect can be used to detect IR-active gases. We present a simple and compact syst...
Photoacoustic cells are optical sensors based on the absorption of photons by gas molecules. The pre...
A miniaturized 3D printed photoacoustic trace gas sensor is presented, using a mid-infrared QCL at 5...
Miniaturized 3D-printed photoacoustic trace gas sensors are presented, targeting gas species with ab...
A new methodology for the development of miniature photoacoustic trace gas sensors using 3D printing...
Photoacoustic spectroscopy (PAS) as a measurement method for trace gas detection has the inherent pr...
This paper presents the development of a Raman fiber amplifier optical source with a maximum output ...
A fast and reliable photoacoustic (PA) sensor for trace gas detection is reported. The sensor is bas...
Downsizing and compatibility with MEMS silicon foundries is an attractive path towards a large diffu...
A 3D printing technique was introduced to a quartz-enhanced photoacoustic spectroscopy (QEPAS) senso...
Photoacoustic (PA) spectroscopy is among the most sensitive techniques used to monitor chemical emis...
Here we present the development of a gas sensor system for the monitoring of the lower explosion lim...
Les cellules photoacoustiques sont des capteurs optiques qui utilisent l'absorption des photons par ...
Tunable diode laser spectroscopy (TDLS) has proven to be a suitable optical sensing system for the m...
The application of compact inexpensive trace gas sensor technology to a mid-infrared nitric oxide (N...
The photoacoustic effect can be used to detect IR-active gases. We present a simple and compact syst...
Photoacoustic cells are optical sensors based on the absorption of photons by gas molecules. The pre...
A miniaturized 3D printed photoacoustic trace gas sensor is presented, using a mid-infrared QCL at 5...
Miniaturized 3D-printed photoacoustic trace gas sensors are presented, targeting gas species with ab...
A new methodology for the development of miniature photoacoustic trace gas sensors using 3D printing...
Photoacoustic spectroscopy (PAS) as a measurement method for trace gas detection has the inherent pr...
This paper presents the development of a Raman fiber amplifier optical source with a maximum output ...
A fast and reliable photoacoustic (PA) sensor for trace gas detection is reported. The sensor is bas...
Downsizing and compatibility with MEMS silicon foundries is an attractive path towards a large diffu...
A 3D printing technique was introduced to a quartz-enhanced photoacoustic spectroscopy (QEPAS) senso...
Photoacoustic (PA) spectroscopy is among the most sensitive techniques used to monitor chemical emis...
Here we present the development of a gas sensor system for the monitoring of the lower explosion lim...
Les cellules photoacoustiques sont des capteurs optiques qui utilisent l'absorption des photons par ...
Tunable diode laser spectroscopy (TDLS) has proven to be a suitable optical sensing system for the m...
The application of compact inexpensive trace gas sensor technology to a mid-infrared nitric oxide (N...
The photoacoustic effect can be used to detect IR-active gases. We present a simple and compact syst...
Photoacoustic cells are optical sensors based on the absorption of photons by gas molecules. The pre...
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