Method and apparatus for the photo-acoustic identification and quantification of analyte species in a gaseous or liquid medium

1. An apparatus for the photo-acoustic identification and quantification of one or more analyte species comprising:

• a) a continuous wave laser that emits a laser beam having a single emission line whose emission wavelength can be tuned into coincidence with an absorption line of a gaseous analyte and which is optically matched to a closed path optical cavity having at least a first and a second partially transmissive mirror whereby the laser beam enters the cavity through the first mirror;
  
  b) a position actuator mechanically connected to either one of the mirrors whereby a length of the cavity can be changed by applying a voltage to an electrical input of the actuator;
  
  c) a laser control unit that modulates the wavelength and/or the output power of the laser responsive to a modulation waveform applied to a modulation input of the laser control unit;
  
  d) first and second analog to digital converters that output first and second analog to digital converter signals, respectively;
  
  e) a resonant photo-acoustic cell situated inside the cavity whereby an optical intracavity beam traverses a resonance element of the cell with the first analog to digital converter being connected to an output of the resonance element;
  
  f) a photo-detector placed into the optical beam emerging from the cavity through the second mirror with the second analog to digital converter being connected to an output of the photo-detector; and
  
  g) a data processing and control unit with both the first and second analog to digital converters being connected to inputs of the data processing and control unit and the laser control unit being connected to an output of the data processing and control unit, said data processing and control unit comprising;
  
  i. a laser wavelength modulation waveform generator that generates the modulation waveform and whose output is connected to the modulation input of laser control unit,ii. a digital processor that receives the first and second analog to digital converter signals from the first and second analog to digital converters and that produces in-phase and quadrature output signals of the first analog to digital converter signals at second harmonics of the modulation waveform, and produces in-phase and quadrature output signals of second analog to digital converter signals at the first harmonics of the modulation waveform, and produces in-phase and quadrature output signals of the second analog to digital converter signals at second harmonics of the modulation waveform,iii, a cavity-to-laser lock module that receives the in-phase signal of the second analog to digital converter at first harmonics of the modulation waveform, and the electrical input of the position actuator being connected to an output of the cavity-to-laser lock module, andiv, an analyte absorption module that receives the in-phase and quadrature output signals of the first analog to digital converter signals at second harmonics of the modulation waveform, and the in-phase and quadrature output signals of the second analog to digital converter signals at second harmonics of the modulation waveform, and generates a signal representing a ratio of the magnitude of the first analog to digital converter signal to the magnitude of the second analog to digital converter signal.