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Mitutoyo M Plan Apo Brightfield Objectives (1x–100x) – Precision Long Working Distance Lenses for Reflected Light MicroscopyMicro Kit-No Objectives
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Mitutoyo M Plan Apo Brightfield Objectives (1x–100x) – Precision Long Working Distance Lenses for Reflected Light Microscopy

$748.00$9,350.00

The Mitutoyo M Plan Apo series for Brightfield Observation offers a complete range of long working distance, apochromatically corrected objectives from 1x to 100x. Designed for use in reflected light setups, these lenses deliver exceptional color fidelity, flatness, and sharpness across the field of view, making them ideal for surface inspection, materials science, industrial metrology, and microelectronics.

Each objective features no cover glass requirement, ensuring flexibility when imaging mounted, coated, or uneven samples. The high numerical apertures and long working distances support integration with lighting, automation, and precision inspection systems in cleanroom or lab environments.

From low-magnification overview to high-resolution detail, this series is the gold standard for brightfield microscopy in industrial and research settings.

Mitutoyo G Plan Apo Glass-Compensated Objectives (20x & 50x) – Optimized for 3.5 mm Thick Glass in Brightfield MicroscopyMicro Kit-No Objectives
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Mitutoyo G Plan Apo Glass-Compensated Objectives (20x & 50x) – Optimized for 3.5 mm Thick Glass in Brightfield Microscopy

$4,890.00$4,980.00

The Mitutoyo G Plan Apo series is specifically designed for brightfield reflected light microscopy through 3.5 mm thick glass, making it the perfect solution for imaging samples within microfluidic chambers, petri dishes, or sealed enclosures. These apochromatic objectives, available in 20x and 50x, are finely tuned to compensate for the refractive and optical effects of thick glass, ensuring crisp, high-resolution imaging without aberration.

With long working distances and full color correction across the visible spectrum, these objectives provide an edge in biological, industrial, and precision engineering applications where imaging through transparent barriers is essential. They’re ideal for in situ monitoring, encapsulated sample analysis, and controlled-environment research.