System and method for converting optical diameters of aerosol particles to mobility and aerodynamic diameters

I claim: 1. A measurement system for measuring aerosol size distribution, comprising: an electromagnetic radiation source operatively coupled with beam shaping optics for generation of a beam of electromagnetic radiation; an inlet nozzle for passage of an aerosol flow stream therethrough, said aerosol flow stream containing particles and intersecting said beam of electromagnetic radiation to define an interrogation volume, said particles scattering said electromagnetic radiation from said interrogation volume; a radiation collector for collection of a portion of said electromagnetic radiation scattered from said interrogation volume; a detector for detection of said portion of said electromagnetic radiation collected by said radiation collector; and a digital processor configured to generate one or more sets of calibration data from polydisperse particles in the aerosol, the calibration data including at least one of electrical mobility diameter and optical diameter data pairs and aerodynamic diameter and optical diameter data pairs, and perform a Mie scattering calculation on at least one of the mobility diameter and optical diameter data pairs and the aerodynamic diameter and optical diameter data pairs so as to determine a refractive index for the polydisperse aerosol for each data pair, the digital processor further configured to generate calibration curves using the refractive index of the mobility diameter and optical diameter pairs to enable the aerosol measurement system to perform an electrical mobility diameter measurement for the particles in the aerosol, the digital processor further configured to generate calibration curves using the refractive index of the aerodynamic diameter and optical diameter pairs to enable the aerosol measurement system to perform an aerodynamic diameter measurement for particles in the aerosol, said digital processor operatively coupled to said detector. 2. A measurement system for measuring aerosol size distribution, comprising: an electromagnetic radiation source operatively coupled with beam shaping optics for generation of a beam of electromagnetic radiation; an inlet nozzle for passage of an aerosol flow stream therethrough, said aerosol flow stream containing particles and intersecting said beam of electromagnetic radiation to define an interrogation volume, said particles scattering said electromagnetic radiation from said interrogation volume; a radiation collector for collection of a portion of said electromagnetic radiation scattered from the particles in said interrogation volume; a detector for detection of said portion of said electromagnetic radiation collected by said radiation collector; a calibration system for generating one or more sets of calibration data from particles in the aerosol, the calibration data including at least one of electrical mobility diameter and optical diameter data pairs and aerodynamic diameter and optical diameter data pairs, said calibration system operatively coupled to said detector; and a digital processor operatively coupled to said calibration system and configured to generate a Mie light scattering model to determine a refractive index and a shape factor using the calibration data, the digital processor further configured to generate calibration curves using the refractive index and shape factor and use the calibration curves to re-size the particles in the aerosol, thereby enabling the aerosol measurement system to perform either an electrical mobility diameter measurement or an aerodynamic diameter measurement for the particles in the aerosol. 3. The measurement system of claim 2 wherein the calibration system includes an electrical mobility device adapted to generate predefined electrical mobility size distributions or electrical mobility cut points. 4. The measurement system of claim 3 wherein the electrical mobility device is selected from the group consisting of a differential mobility analyzer and electrostatic precipitator. 5. The measurement system of claim 3 further including a scanning mobility particle sizing device operatively coupled to the detector thereby providing a wide particle range sizing system adapted to measure a mass of particles having a lower limit defined as being between about 10 nm and about 500 nm and an upper limit defined as being between about 300 nm and about 10 μm. 6. The measurement system of claim 2 wherein the calibration system includes an aerodynamic diameter device adapted to generate aerodynamic diameter cut points. 7. The calibration system of claim 6 wherein the aerodynamic diameter device includes an impactor or a set of impactors with different aerodynamic cut points. 8. The calibration system of claim 6 wherein the aerodynamic diameter device includes a cyclone or a set of cyclones with different aerodynamic cut points.