Add to ORKGA distributed-feedback (DFB) telecommunication diode laser radiating at 1.53 µm was used for photoacoustic (PA) detection of ammonia molecules in the gas phase. The frequency of the diode laser was adjusted to an absorption line of ammonia and modulated at the first longitudinal resonant frequency (3.8 kHz) of the cylindrical resonator of the photoacoustic cell. For noise reduction a differential method with two acoustic resonators and a lock-in amplifier was used. To increase the Q factor of the cell electro-polished stainless steel resonators were applied. For reducing the adsorption problem of the polar ammonia molecule, the remaining surface of the cell was covered with a 30 µm Teflon coating. The adsorption behavior of ammonia with dif...
The use of tunable diode lasers for the spectroscopic analysis of gaseous air pollutants was studied...
In this report, an ultra-high sensitive quartz-enhanced photoacoustic spectroscopy (QEPAS) based amm...
Author Institution: J. Heyrovsky Institute of Physical Chemistry, Academy of Sciences of the Czech R...
A sensitive detection of ammonia in parts per billion by volume is described. The system based on ph...
A trace-gas sensor based on fibre-amplifier enhanced photoacoustic spectroscopy has been developed f...
One of the causes of the acidification of the environment are high ammonia (NH <sub>3</sub> ) emissi...
One of the causes of the acidification of the environment are high ammonia (NH 3 ) emission rates. I...
An ammonia traces analyser based on photoacoustic spectroscopy is described. The system uses a CO2 l...
Photoacoustic spectroscopy is a widely recognised technique to measure trace gases at parts-per-mill...
Abstract. Photoacoustic detection of 30 ppb ammonia in air is demonstrated with a signal to noise ra...
A sensitive optical microphone for photoacoustic spectroscopy based on the common path topology of a...
Different environmental and industrial technologies seek for fast and automatic ammonia detection sy...
A photoacoustic sensor using a laser diode emitting near 1532nm in combination with an erbium-doped ...
We present here a novel instrument for measuring surface-atmosphere exchange fluxes of ammonia. The ...
A multi-gas photoacoustic sensor is reported. Simultaneous measurement of ammonia, carbon dioxide an...
The use of tunable diode lasers for the spectroscopic analysis of gaseous air pollutants was studied...
In this report, an ultra-high sensitive quartz-enhanced photoacoustic spectroscopy (QEPAS) based amm...
Author Institution: J. Heyrovsky Institute of Physical Chemistry, Academy of Sciences of the Czech R...
A sensitive detection of ammonia in parts per billion by volume is described. The system based on ph...
A trace-gas sensor based on fibre-amplifier enhanced photoacoustic spectroscopy has been developed f...
One of the causes of the acidification of the environment are high ammonia (NH <sub>3</sub> ) emissi...
One of the causes of the acidification of the environment are high ammonia (NH 3 ) emission rates. I...
An ammonia traces analyser based on photoacoustic spectroscopy is described. The system uses a CO2 l...
Photoacoustic spectroscopy is a widely recognised technique to measure trace gases at parts-per-mill...
Abstract. Photoacoustic detection of 30 ppb ammonia in air is demonstrated with a signal to noise ra...
A sensitive optical microphone for photoacoustic spectroscopy based on the common path topology of a...
Different environmental and industrial technologies seek for fast and automatic ammonia detection sy...
A photoacoustic sensor using a laser diode emitting near 1532nm in combination with an erbium-doped ...
We present here a novel instrument for measuring surface-atmosphere exchange fluxes of ammonia. The ...
A multi-gas photoacoustic sensor is reported. Simultaneous measurement of ammonia, carbon dioxide an...
The use of tunable diode lasers for the spectroscopic analysis of gaseous air pollutants was studied...
In this report, an ultra-high sensitive quartz-enhanced photoacoustic spectroscopy (QEPAS) based amm...
Author Institution: J. Heyrovsky Institute of Physical Chemistry, Academy of Sciences of the Czech R...