Mitutoyo M Plan UV Objectives (10x–80x) – Precision UV-Corrected Long Working Distance LensesMicro Kit-No Objectives
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Mitutoyo M Plan UV Objectives (10x–80x) – Precision UV-Corrected Long Working Distance Lenses

$12,600.00$27,100.00

Mitutoyo’s M Plan UV series offers exceptional performance across the 10x to 80x range, delivering superior ultraviolet-corrected imaging for demanding applications. These long working distance objectives are ideal for semiconductor inspection, fluorescence microscopy, and photolithography, offering high numerical apertures and precise correction across the UV and visible spectra. Designed with no cover glass requirement and consistent parfocal lengths, they provide unmatched versatility and clarity in both research and industrial environments.

Whether you’re working in advanced materials science, optics, or microelectronics, the M Plan UV objectives provide crisp, high-contrast imaging—even in the near-UV range.

 

Mitutoyo M Plan Apo SLWD Objectives (20x, 50x, 100x) – Super Long Working Distance Optics for Brightfield PrecisionMicro Kit-No Objectives
Select options This product has multiple variants. The options may be chosen on the product page

Mitutoyo M Plan Apo SLWD Objectives (20x, 50x, 100x) – Super Long Working Distance Optics for Brightfield Precision

$3,570.00$5,510.00

The Mitutoyo M Plan Apo SLWD (Super Long Working Distance) objectives are built for precision imaging in brightfield reflected light applications where extra clearance is essential. Available in 20x, 50x, and 100x, these apochromatically corrected lenses deliver sharp, color-accurate images without sacrificing space between the objective and the sample.

With working distances as long as 30.5 mm at 20x and 6 mm at 100x, the SLWD series allows integration with probes, lighting systems, or other equipment beneath the objective—ideal for delicate samples, tall structures, or inline industrial inspection.

Optimized for cleanroom, R&D, and metrology environments, these objectives combine high numerical apertureperformance with the flexibility only super long working distance optics can provide.