Simple diffraction gratings for product identification

What is claimed is: 1. A system for identifying information related to an object, the system comprising: a radiation emitter configured to direct radiation toward an object; a detector configured to receive modified radiation from a non-optical wavelength diffraction grating on the object, wherein the non-optical wavelength diffraction grating comprises at least three sub-gratings, each of the sub-gratings having a different element spacing so that the non-optical wavelength diffraction grating is associated with a plurality of element spacings, wherein the non-optical wavelength diffraction grating comprises a reference sub-grating configured to define a directionality of the non-optical wavelength diffraction grating, and each of the at least three sub-gratings is positioned in one of ascending and descending order based on a frequency cutoff difference; and a processing device operably connected to the detector and configured to determine information related to the object based upon the modified radiation received at the detector, wherein determining the information comprises: determining the plurality of element spacings associated with the non-optical wavelength diffraction grating, determining one or more frequency cutoff differences associated with the at least three sub-gratings, and decoding the plurality of element spacings and the one or more frequency cutoff differences based on the directionality of the non-optical wavelength diffraction grating to determine the information related to the object, wherein each frequency cutoff difference for adjacent sub-gratings comprises different information related to the object. 2. The system of claim 1 , wherein the non-optical wavelength diffraction grating is a reflective non-optical wavelength diffraction grating. 3. The system of claim 1 , wherein the radiation emitter comprises at least one of an infrared emitter and a microwave emitter. 4. The system of claim 1 , wherein the detector comprises at least one of an infrared detector, an infrared camera, a monochronometer, a spectrometer, a microwave detection unit, an antenna and a microwave filter. 5. The system of claim 1 , further comprising a sorting device configured to sort the object based upon a determination by the processing device of the information related to the object. 6. The system of claim 1 , wherein the information related to the object comprises at least one of a material composition of the object, a melting temperature of the object, a composition type of the object and one or more additives added to the object. 7. The system of claim 1 , wherein determining the plurality of element spacings associated with the non-optical wavelength diffraction grating comprises determining a plurality of frequency cutoffs associated with the non-optical wavelength diffraction grating. 8. A method of identifying information related to an object, the method comprising: directing radiation from a radiation emitter to an object; receiving modified radiation directed by a non-optical wavelength diffraction grating on the object toward a detector, wherein the non-optical wavelength diffraction grating comprises at least three sub-gratings, each of the sub-gratings having a different element spacing so that the non-optical wavelength diffraction grating is associated with a plurality of element spacings, wherein the non-optical wavelength diffraction grating comprises a reference sub-grating configured to define a directionality of the non-optical wavelength diffraction grating, and each of the at least three sub-gratings is positioned in one of ascending and descending order based on a frequency cutoff difference; and determining information related to the object at a processing device operably connected to the detector, the information based upon the modified radiation received at the detector, wherein determining the information comprises: determining the plurality of element spacings associated with the non-optical wavelength diffraction grating, determining one or more frequency cutoff differences associated with the at least three sub-gratings, and decoding the plurality of element spacings and the one or more frequency cutoff differences based on the directionality of the non-optical wavelength diffraction grating to determine the information related to the object, wherein each frequency cutoff difference for adjacent sub-gratings comprises different information related to the object. 9. The method of claim 8 , wherein receiving the modified radiation comprises receiving modified radiation reflected from a reflective non-optical wavelength diffraction grating on the object. 10. The method of claim 8 , further comprising sorting at a sorting device operably connected to the processing device, wherein sorting the object is based upon the determined information. 11. The method of claim 8 , wherein the radiation emitter comprises at least one of an infrared emitter and a microwave emitter. 12. The method of claim 8 , wherein the detector comprises at least one of an infrared detector, an infrared camera, a monochronometer, a spectrometer, a microwave detection unit, an antenna and a microwave filter. 13. The method of claim 8 , wherein the information related to the object comprises at least one of a material composition of the object, a melting temperature of the object, a composition type of the object and one or more additives added to the object. 14. A method of manufacturing an object, the method comprising: forming an object; applying at least one non-optical wavelength diffraction grating to the object, wherein the at least one non-optical wavelength diffraction grating defines information related to the object, wherein the non-optical wavelength diffraction grating comprises at least three sub-gratings, each of the sub-gratings having a different element spacing so that the non-optical wavelength diffraction grating is associated with a plurality of element spacings; and providing a reference sub-grating configured to define a directionality of the non-optical wavelength diffraction grating, wherein each of the at least three sub-gratings is positioned in one of ascending and descending order based on a frequency cutoff difference, wherein each frequency cutoff difference for adjacent sub-gratings comprises different information related to the object. 15. The method of claim 14 , further comprising determining the at least one non-optical wavelength diffraction grating based on the information related to the object. 16. The method of claim 14 , wherein forming the object comprises at least one of: extruding a quantity of a polymer through at least one die to form the object; and filling a mold with a quantity of a polymer to form the object. 17. The method of claim 14 , wherein forming the object and applying at least one non-optical wavelength diffraction grating to the object are simultaneous. 18. The method of claim 14 , wherein the object is formed prior to the non-optical wavelength diffraction grating being applied to the object. 19. The method of claim 14 , wherein the applying at least one non-optical wavelength diffraction grating to the object comprises at least one of printing, molding, lithography, chemical etching, physical etching, radiation etching and coating. 20. The method of claim 14 , wherein the information related to the object comprises at least one of a material composition of the object, a melting temperature of the object, a composition type of the object and one