Patent ID: 7777878

Claim:
An imaging spectrometer system sequentially comprising: a source (LS) of electromagnetic radiation; a collecting means (L 1 ) for directing electromagnetic radiation; a stage (STG) for supporting a sample (S); a first focusing means (L 2 ); a first digital light processor (DLP); and a second focusing means (L 3 ); said imaging system further optionally comprising polarization state generation and polarization state analysis means between said source of electromagnetic radiation and said sample, and after said sample, respectively; said first digital light processor (DLP) comprising an array of a multiplicity of microscopic mirrors (MM), each said microscopic mirror (MM) being controllable to reflect incident electromagnetic radiation along at least two different loci; said collecting means, first focusing means and second focusing means all being selected from the group consisting of: a lens; a mirror; a system of lenses; a system of mirrors; a system comprising at least one lens and at least one mirror; such that in use said source (LS) of electromagnetic radiation provides an expanding beam (BI) of electromagnetic radiation to said collecting means (L 1 ), which in turn directs electromagnetic radiation onto a sample (S) placed on said stage (STG) for supporting a sample (S); and such that said first focusing means (L 2 ) generates an image of said sample (S) on said first digital light processor (DLP); at least one of said microscopic mirrors (MM) in said first digital light processor (DLP) being caused to be oriented to direct electromagnetic radiation incident thereupon to said second focusing means (L 3 ), which in turn focuses electromagnetic radiation provided thereto from said at least one microscopic mirror (MM) in a desired direction while other of said microscopic mirrors (MM) direct electromagnetic radiation away therefrom; said imaging system further comprising, after said first digital light processor (DLP), a spectrometer sequentially comprising: a dispersing means (G) for spatially separating different wavelengths in electromagnetic radiation; a second digital light processor (DLP 2 ); and at least one detector element (DET); such that said dispersing means (G) receives electromagnetic radiation from said first digital light processor (DLP) which is directed in said desired direction, and directs it to said dispersing means (G) which provides electromagnetic radiation to said second digital light processor (DLP 2 ), which directs selected wavelengths into said at least one detector element (DET) while directing other wavelengths away therefrom.