| 1. | Numerical apertures as high as 1.6 can be achieved.
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| 2. | Microscope objectives are characterized by two parameters : magnification and numerical aperture.
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| 3. | Oil immersion objectives typically have even larger numerical apertures so improved optical sectioning.
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| 4. | Numerical aperture is not typically used in photography.
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| 5. | Microscope objectives are characterized by two parameters, namely, magnification and numerical aperture.
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| 6. | Numerical apertures as high as 1.6 can be achieved with oil immersion.
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| 7. | This can be obtained by using an objective with a numerical aperture greater than 1.
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| 8. | In multimode fibers, the term " equilibrium numerical aperture " is sometimes used.
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| 9. | The larger numerical aperture allows collection of more light making detailed observation of smaller details possible.
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| 10. | Usually, high numerical aperture objectives are also used to capture the maximum emission light possible.
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