Ice crystals and volcanic ash detection system

What is claimed is: 1. A system for detecting ice crystals and/or volcanic ash in an airspace of interest along a flight path of an airborne vehicle, the system comprising: a probe configured to collect an air sample in the airspace of interest; a radon detection system having a radon activity sensor measuring radon activity in the air sample and outputting a radon activity signal; a processing unit configured to determine if the radon activity is above a predetermined critical radon value for the airspace of interest, the predetermined critical radon value being greater than a non-convective background level for the airspace of interest, the processing unit configured to compare the radon activity signal to the predetermined critical value and output a radon determination signal indicative of recent convective updraft from lower troposphere; a spectral detection system configured to determine if ice crystals and/or volcanic ash are present in the airspace of interest when the radon activity is above the predetermined critical radon value and output an ice/ash detection signal, the spectral detection system having an optical sensor configured to measure radiance, emittance, and/or reflectance at spectral bands of interest on opposing sides of at least one crossover point in the airspace of interest; and the processing unit configured to determine a ratio of the measured radiance, emittance, and/or reflectance at the spectral bands and if the ratio is above a predetermined critical ratio value output an ice/ash determination signal indicative of the presence of ice crystals and/or volcanic ash in the airspace of interest. 2. The system according to claim 1 , further comprising: a data display system displaying an indicia in response to the determination signal. 3. The system according to claim 1 , further comprising: a system of an aircraft configured to be responsive to the determination signal. 4. The system according to claim 1 , further comprising: a flight control system of an aircraft configured to be responsive to the determination signal. 5. The system according to claim 1 , further comprising: a light source outputting light energy at the spectral bands of interest, the light source illuminating the area of interest. 6. The system according to claim 5 wherein the spectral bands of interest are in the range of about 2.05 μm to about 2.30 μm. 7. The system according to claim 5 wherein the light source is selected from the group consisting of a laser, halogen light, infrared light, and light-emitting diode. 8. A method for detecting ice crystals and/or volcanic ash in an airspace of interest along a flight path of an airborne vehicle, the method comprising: measuring radon activity A in an airspace in which an aircraft is flying; determining if the radon activity A is above a predetermined critical radon value A crit for the airspace of interest, the predetermined critical radon value being greater than a non-convective background level for the airspace of interest, if the radon activity A is above the predetermined critical radon value (A≥A crit ) then producing a radon determination signal indicative of recent convective updraft from lower troposphere has been detected, if the radon activity A is above the predetermined critical radon value (A≥A crit ) then measuring radiance, emittance, and/or reflectance at spectral bands of interest on opposing sides of at least one crossover point in the airspace of interest and determining a ratio of the measured radiance, emittance, and/or reflectance at the spectral bands, and if the ratio above a predetermined critical ratio value then output an ice/ash determination signal indicative of the presence of ice crystals and/or volcanic ash in the airspace of interest. 9. The method according to claim 8 , wherein the measuring radiance, emittance, and/or reflectance at spectral bands of interest on opposing sides of at least one crossover point in the airspace of interest and determining a ratio of the measured radiance, emittance, and/or reflectance at the spectral bands comprises: measuring a first radiance of the airspace of interest at a first spectral band on a first side of the crossover point (R λ1 ); measuring a second radiance of the airspace of interest at a second spectral band on a second opposing side of the crossover point (R λ2 ); and calculating the ratio of the first radiance and the second radiance (γ=R λ1 /R λ2 .