Multiple light source configuration

What is claimed is: 1 . A lighting device comprising: a lens assembly comprising: at least one objective lens, the at least one objective lens forming an optical axis; and a housing containing therein: a plurality of lighting sources positioned about an inner circumference of the housing; and a prismatic structure comprising: a plurality of reflective surfaces extending from a base of the housing, wherein a corresponding one of the plurality of reflective surfaces being positioned opposite a corresponding one of at least one of the plurality of lighting sources, the prismatic structure configured to: receive light emitted by corresponding ones of the plurality of lighting sources; and re-direct the received light emitted by the lighting sources toward the at least one objective lens, within the lens assembly; and direct the re-directed light onto the least one objective lens, wherein an optical power of the combination of the at least one objective lens of the lens assembly being selected to focus the light onto an area a known distance from lens assembly. 2 . The lighting device of claim 1 , wherein lighting sources are configured to: emit a white light. 3 . The lighting device of claim 2 , comprising: a filter positioned between selected ones of the plurality lighting sources and a corresponding reflective surface, the filter configured to: limit the light emitted by the lighting sources to a known wavelength range. 4 . The lighting device of claim 1 , wherein the optical characteristics of the at least one lens is based on a distance between an apex of the prismatic structure and the at least one lens. 5 . The lighting device of claim 1 , wherein a gap is formed between the reflective surfaces at an apex of the prismatic structure. 6 . The lighting device of claim 5 , comprising: a lighting source positioned on the base of the housing, the lighting source configured to emit light through the gap at the apex of the prismatic structure. 7 . The lighting element of claim 1 , wherein the plurality of reflective surfaces form a multi-sided structure. 8 . The lighting device of claim 7 , wherein the multi-sided structure comprises: at least a 3-sided pyramid. 9 . The lighting device of claim 1 comprising: a filter positioned on a distal end of the housing, the filter configured to: limit a range of wavelengths emitted by the lighting element. 10 . The lighting device of claim 1 wherein selected ones of the plurality of lighting sources are configured to: emit light in a known wavelength band. 11 . The lighting device of claim 10 , wherein selected other ones of the plurality of lighting sources are configured to: emit light in a second known wavelength band. 12 . The lighting device of claim 11 , wherein intensity of the light emitted in in the known wavelength band and the second known wavelength band may be the same or different. 13 . The lighting device of claim 10 , wherein a wavelength of light emitted by the selected ones of the plurality of lighting sources in the known wavelength band may be the same or different. 14 . The lighting device of claim 11 , wherein a wavelength of light emitted by the selected other ones of the plurality of lighting sources in the second known wavelength band may be the same or different as those in the first known wavelength band. 15 . The lighting device of claim 1 , wherein the reflective surface are arranged to form an apex, the apex possessing an apex angle between the reflective surface selected from the group comprising: greater than ninety (90) degrees, substantially ninety (90) degrees and less than ninety (90) degrees. 16 . The lighting device of claim 15 , wherein a gap is formed at the apex. 17 . The lighting device of claim 16 comprising: a lighting source positioned on the base, wherein light emitted by the lighting source positioned on the base is emitted along the optical axis through the gap. 18 . The lighting device of claim 15 , wherein the plurality of lighting elements are arranged about the inner circumference substantially perpendicular to the optical axis and the apex angle is less than ninety (90) degrees. 19 . A lighting device comprising: a lens assembly comprising: at least one objective lens, the at least one objective lens forming an optical axis; and a housing containing therein: a plurality of lighting sources positioned about an inner circumference of the housing, wherein the plurality of lighting sources are arranged substantially perpendicular to the optical axis; and a prismatic structure comprising: a plurality of reflective surfaces extending from a base of the housing, wherein the corresponding ones of the plurality of reflective surfaces are positioned opposite a corresponding one of at least one of the plurality of lighting sources, wherein the reflective surfaces are arranged to form an apex having an apex angle between the reflective surfaces less than ninety (90) degrees, the prismatic structure configured to: receive light emitted by corresponding ones of the plurality of lighting sources; and re-direct the received light emitted by the lighting sources toward the at least one objective lens within the lens assembly, wherein an optical power of the at least one objective lens being selected to focus the light onto an area a known distance from lens assembly. 20 . The lighting device of claim 19 , wherein the optical power of the at least one objective lens is selected to achieve a desired light of light intensity in the area.