Non-radioactive, capacitive discharge plasma ion source and method

What is claimed is: 1. A non-radioactive plasma ion source, comprising: a) a housing, defining i) an interior volume having a major longitudinal axis, ii) a first gas inlet, iii) a second gas inlet, iv) a counterflow gas outlet, and v) an analyte gas outlet; b) at least four planar electrodes mounted along the major longitudinal axis of the housing between the counterflow gas outlet and the analyte gas outlet, thereby partitioning the interior volume into at least three chambers, including i) a discharger chamber, ii) a first gas inlet chamber, and iii) a second gas inlet chamber, the chambers being aligned along the major longitudinal axis between the counterflow gas outlet and the analyte gas outlet, each of the planar electrodes defining an opening for creating a homogeneous electric field by application of a direct current voltage to the electrodes, wherein fluid communication is provided between the counterflow gas outlet and the analyte gas outlet through the openings and the chambers, and wherein the first gas inlet and the analyte gas outlet are at the first gas inlet chamber, the counterflow gas outlet is at the discharger chamber, and the second gas inlet and the second gas inlet chamber are between the discharger chamber and the first gas inlet chamber; and c) a non-radioactive discharger between two of the planar electrodes, that generates an ionized plasma within the discharger chamber for exposure to the homogenous electric field, whereby a selected ion species is directed by the homogenous electric field into combination with a sample gas that is directed into at least one of the first gas inlet and the second gas inlet, the combination thereby forming analyte ion species of an analyte gas that is discharged through the analyte gas outlet. 2. The ion source of claim 1 , wherein the discharger includes at least one member of the group consisting of a carbon nanotube ionization source, a capacitive gas discharge plasma ionization source, a corona ionization source, and a dielectric-barrier discharge ion source. 3. The ion source of claim 1 , further including: a) a direct current power source in selective electrical communication with the planar electrodes, whereby the planar electrodes generate an electric field within the housing; and b) an alternating current power source in electrical communication with the discharger. 4. The ion source of claim 3 , further including electrical resistors between the planar electrodes, whereby voltages applied by direct current to the electrodes decreases from the discharger chamber to the first gas inlet chamber. 5. The plasma ion source of claim 4 , further including a controller that controls the direct current to the planar electrodes. 6. The plasma ion source of claim 1 , further including a spectral detector at the analyte gas outlet, the spectral detector measuring ions discharged through the analyte gas outlet. 7. The ion source of claim 6 , wherein the spectral detector includes at least one member of the group consisting of an ambient-pressure ion mobility spectrometer, a differential mobility spectrum analyzer, a time-of-flight ion mobility spectrometer, and an ambient-pressure ionization mass spectrometer. 8. The ion source of claim 1 , further including a controller that controls at least one member of the group consisting of a rate of flow of sample gas into at least one of the first gas inlet and the second gas inlet, a rate of flow of transport gas into the first gas inlet, and a rate of flow a discharge gas into the second gas inlet. 9. The ion source of claim 8 , wherein the controller is an electrical circuit that includes at least one member of the group consisting of a pulse generator, a resonance generator and a resonant circuit. 10. The plasma ion source of claim 1 , further including at least one transport gas source in selective fluid communication with the first gas inlet. 11. The plasma ion source of claim 1 , further including at least one discharger gas source in selective fluid communication with the second gas inlet. 12. The ion source of claim 1 , further including a counterflow regulator at the counterflow gas outlet.