Miniature optical elements for fiber-optic beam shaping

What is claimed is: 1. An optical coherence tomography system comprising: a flexible catheter comprising; an elongate unitary optical cap, the elongate unitary optical cap defining a bore, and a flexible optical fiber, wherein the elongate unitary optical cap is fixed to the flexible optical fiber, the flexible optical fiber disposed in the bore, wherein the elongate unitary optical cap comprises a beam directing surface such that divergent light received from the flexible optical fiber positioned in the bore is directed outside of the elongate unitary optical cap to form a focal spot; an interferometer comprising: a reference arm; a detector; an optical coupler, wherein the optical coupler is connectable to a proximal end of the flexible optical fiber and is connected to a light source, the reference arm and the detector, the optical coupler directing a portion of light from the light source into the flexible optical fiber and through a side of the elongate unitary optical cap; and a data acquisition system and a display system in electrical communication with the detector. 2. The system of claim 1 wherein the elongate unitary optical cap has at least one fixed reflective surface. 3. The system of claim 1 wherein backscattered and back reflected light from a sample is collected by the elongate unitary optical cap and transmitted back down the fiber, through the optical coupler, and into the interferometer and wherein the reflected light and reference arm light interferes, and is then detected, processed, and displayed by the data acquisition system and display system. 4. The system of claim 1 wherein the beam directing surface is selected from the group consisting of biconic asphere, asphere, biconic Zernike, Fresnel, and non-uniform rational B-spline. 5. An optical coherence tomography system comprising: a flexible catheter comprising; an elongate unitary optical cap, the elongate unitary optical cap defining a bore, wherein the elongate unitary optical cap comprises a reference reflector; and a flexible optical fiber, wherein the elongate unitary optical cap is fixed to the flexible optical fiber, the flexible optical fiber disposed in the bore; an interferometer comprising: a reference arm; a detector; an optical coupler, wherein the optical coupler is connectable to a proximal end of the flexible optical fiber and is connected to a light source, the reference arm and the detector, the optical coupler directing a portion of light from the light source into the flexible optical fiber and through a side of the elongate optical cap; and a data acquisition system and a display system in electrical communication with the detector, wherein the data acquisition system comprises an imaging parameter that can be calibrated using the reference reflector. 6. The system of claim 5 wherein the elongate unitary optical cap has at least one fixed reflective surface. 7. The system of claim 5 wherein backscattered and back reflected light from a sample is collected by the elongate unitary optical cap and transmitted back down the fiber, through the optical coupler, and into the interferometer and wherein the reflected light and reference arm light interferes, and is then detected, processed, and displayed by the data acquisition system and display system. 8. The system of claim 5 wherein the beam directing surface is selected from the group consisting of biconic asphere, asphere, biconic Zernike, Fresnel, and non-uniform rational B-spline. 9. The system of claim 5 wherein the beam directing surface is a biconic asphere. 10. An optical coherence tomography system comprising: a flexible catheter comprising; an elongate unitary optical cap, the elongate unitary optical cap, defining a bore, wherein the elongate unitary optical cap is adjacent and in optical communication with a sheath comprising a reference reflector; and a flexible optical fiber, wherein the elongate unitary optical cap is fixed to the flexible optical fiber, the flexible optical fiber disposed in the bore; an interferometer comprising: a reference arm; a detector; an optical coupler, wherein the optical coupler is connectable to a proximal end of the flexible optical fiber and is connected to a light source, the reference arm and the detector, the optical coupler directing a portion of light from the light source into the flexible optical fiber and through a side of the elongate optical cap; and a data acquisition system and a display system in electrical communication with the detector, wherein the data acquisition system comprises an imaging parameter that can be calibrated using the reference reflector. 11. The system of claim 10 wherein the elongate unitary optical cap has at least one fixed reflective surface. 12. The system of claim 10 wherein backscattered and back reflected light from a sample is collected by the elongate unitary optical cap and transmitted back down the fiber, through the optical coupler, and into the interferometer and wherein the reflected light and reference arm light interferes, and is then detected, processed, and displayed by the data acquisition system and display system. 13. The system of claim 10 wherein the beam directing surface is selected from the group consisting of biconic asphere, asphere, biconic Zernike, Fresnel, and non-uniform rational B-spline. 14. The system of claim 10 wherein the beam directing surface is a biconic asphere.