Optical probe with improved affixing structure for supporting a light-redirecting element

The invention claimed is: 1. An optical probe comprising: an inner tube; and a light-redirecting element disposed at a distal end of the inner tube, wherein the light-redirecting element is supported at said distal end by an affixing structure not attached to an optically-working surface of the light-redirecting element, wherein the inner tube comprises at least two corresponding inner tube sections separable from one another along respective joint lines co-axially extending in a direction along a longitudinal axis over an entire longitudinal length of the inner tube, wherein the light-redirecting element comprises a prism, wherein the affixing structure comprises respective protrusions from the inner tube sections, each protrusion having a support surface attached to a corresponding lateral surface of the prism, wherein the affixing structure further comprises respective layers of adhesive between the support surfaces and the lateral surfaces of the prism. 2. The optical probe of claim 1 , further comprising means for removably affixing the at least two corresponding inner tube sections to one another. 3. The optical probe of claim 1 , further comprising at least one affixing element to removably affix the at least two cooperating inner tube sections to one another, wherein the at least one affixing element is selected from the group consisting of a strap, a tack-weld, and a threaded affixing element. 4. The optical probe of claim 1 , wherein the at least two cooperating inner tube sections of the inner tube define a hollowed interior having a varying diameter along the longitudinal axis. 5. The optical probe of claim 1 , wherein the at least one optical element comprises a series of optical lenses stacked along the longitudinal axis of the inner tube. 6. The optical probe of claim 5 , further comprising at least one optical spacer interposed between at least a pair of the optical lenses. 7. The optical probe of claim 1 , wherein the inner tube comprises a stop formed on an outer surface thereof. 8. The optical probe of claim 1 , wherein the inner tube comprises at least one alignment tab formed on an outer surface thereof. 9. The optical probe of claim 1 , further comprising: an outer tube surrounding the inner tube; an opening formed in a distal end of the outer tube; and the light-redirecting element disposed proximate the opening in the outer tube. 10. An optical probe comprising: an inner tube; and a light-redirecting element disposed at a distal end of the inner tube, wherein the light-redirecting element is supported at said distal end by an affixing structure not attached to an optically-working surface of the light-redirecting element, wherein the inner tube comprises at least two corresponding inner tube sections separable from one another along respective joint lines co-axially extending in a direction along a longitudinal axis over an entire longitudinal length of the inner tube, wherein the affixing structure comprises at least one protrusion from the inner tube sections having a support surface attached to a corresponding non-optically working surface of the light-redirecting element. 11. The optical probe of claim 10 , wherein the at least one protrusion is integrally constructed at the respective distal ends of the inner tube sections of the inner tube. 12. The optical probe of claim 10 , wherein the affixing structure comprises a layer of adhesive disposed between the support surface and the corresponding surface of the light-redirecting element. 13. A combustion turbine engine comprising: an optical probe comprising: an inner tube; and a light-redirecting element disposed at a distal end of the inner tube, wherein the light-redirecting element is supported at said distal end by an affixing structure not attached to an optically-working surface of the light-redirecting element, wherein the inner tube comprises at least two corresponding inner tube sections separable from one another along respective joint lines co-axially extending in a direction along a longitudinal axis over an entire longitudinal length of the inner tube, wherein the affixing structure comprises at least one protrusion from the inner tube sections having a support surface attached to a corresponding non-optically working surface of the light-redirecting element, wherein the light-redirecting element comprises a prism, wherein the affixing structure comprises respective protrusions at the respective distal ends of the inner tube sections, each protrusion having a support surface attached to a corresponding lateral surface of the prism, wherein the affixing structure further comprises respective layers of adhesive between the support surfaces and the lateral surfaces of the prism.