High numerical aperture selective plane illumination microscopy

The invention claimed is: 1. A microscopy system comprising: a first objective positioned adjacent to a sample to be imaged, the first objective being configured to both illuminate the sample with oblique illumination light and collect light from the sample; and a remote imaging module positioned remotely from the first objective and the sample, the remote imaging module being configured to rotate the image plane of the collected light to account for an angle of the oblique illumination light, the remote imaging module including a second objective and a third objective, wherein the second objective is an air objective and the third objective is a liquid-immersion objective, such that the second and third objectives are mismatched with each other in that they are configured to be surrounded by or immersed in different media having different indices of refraction. 2. The system of claim 1 , wherein the microscopy system is a selective plane illumination microscopy (SPIM) system. 3. The system of claim 2 , wherein the first objective is positioned below the sample. 4. The system of claim 3 , further comprising a microscope stage configured to support the sample and wherein the first objective is positioned below the microscope stage. 5. The system of claim 1 , wherein the first objective is a water-immersion objective. 6. The system of claim 1 , wherein the third objective is water-immersion objective that is configured to be immersed in water. 7. The system of claim 1 , wherein the second objective and the third objective are positioned adjacent to each other and further comprising a separation device positioned between the second and third objective that is configured to contain a liquid in which the third objective is immersed during operation of the system. 8. The system of claim 7 , wherein the separation device is mounted to the third objective. 9. The system of claim 7 , wherein the separation device comprises a first side that includes a reservoir configured to contain the liquid and a second side that includes a window to which the second objective is immediately adjacent that enables light to travel from the second objective, through the liquid, and to the third objective. 10. The system of claim 9 , wherein the separation device is mounted to the third objective. 11. The system of claim 1 , further comprising a translation stage and wherein the remote imaging module is mounted to the translation stage. 12. The system of claim 1 , wherein the system has an effective detection numerical aperture greater than 0.7. 13. The system of claim 1 , wherein the system has an effective detection numerical aperture greater than 1.0. 14. The system of claim 1 , further comprising a light source that generates the light that illuminates the sample. 15. The system of claim 1 , further comprising an image sensor that captures the light collected from the sample. 16. A remote imaging module configured to rotate an image plane of light within an optical system, the module comprising: a first objective having a first optical axis positioned on the remote imaging module, the first objective being an air objective; and a second objective positioned adjacent to the first objective on the remote imaging module, the second objective having a second optical axis that forms an angle with the first optical axis, the second objective being a liquid-immersion objective; and a separation device positioned between the first objective and the second objective, the separation device including a first side having a reservoir that is configured to contain liquid in which the second objective is immersed during operation of the remote imaging module and a second side having a window to which the first objective is directly adjacent that enables light to travel from the first objective, through the liquid, and to the second objective; wherein the first objective and the second objective are mismatched with each other in that they are configured to be surrounded by or immersed in different media having different indices of refraction. 17. The remote imaging module of claim 16 , wherein the second objective is water-immersion objective that is configured to be immersed in water. 18. The remote imaging module of claim 16 , wherein the separation device is mounted to the second objective. 19. A method for imaging a sample, the method comprising: illuminating a sample with oblique light using a first objective positioned adjacent to the sample; capturing light from the sample also using the first objective; and rotating the image plane of the captured light using a remote imaging module that is positioned remotely from the first objective and the sample, the remote imaging module comprising a second objective and a third objective that are positioned adjacent to each other, the second objective being an air objective exposed to ambient air and the third objective being a liquid-immersion objective immersed in a liquid, such that the second and third objectives are mismatched with each other in that they are surrounded by or immersed in different media having different indices of refraction. 20. The method of claim 19 , wherein illuminating a sample further comprises illuminating the sample from below. 21. A microscopy system comprising: a first objective positioned adjacent to a sample to be imaged, the first objective being configured to both illuminate the sample with oblique illumination light and collect light from the sample; and a remote imaging module positioned remotely from the first objective and the sample, the remote imaging module being configured to rotate the image plane of the collected light to account for an angle of the oblique illumination light, the remote imaging module including a second objective and a third objective, wherein the second objective is a liquid-immersion objective configured to be immersed in a first liquid having a first index of refraction and the third objective is a liquid-immersion objective configured to be immersed in a different, second liquid having a different, second index of refraction, such that the second and third objectives are mismatched with each other in that they are configured to be surrounded by or immersed in different media having different indices of refraction. 22. A method for imaging a sample, the method comprising: illuminating a sample with oblique light using a first objective positioned adjacent to the sample; capturing light from the sample also using the first objective; and rotating the image plane of the captured light using a remote imaging module that is positioned remotely from the first objective and the sample, the remote imaging module comprising a second objective and a third objective that are positioned adjacent to each other, the second objective being a liquid-immersion objective immersed in a first liquid having a first index of refraction and the third objective being a liquid-immersion objective immersed in a different, second liquid having a different, second index of refraction, such that the second and third objectives are mismatched with each other in that they are surrounded by or immersed in different media having different indices of refraction.