MLOptic not only provides standard microscope objectives to fit your existing system, but also provides high-end customized objectives to help your system achieve a higher level of performance.

M Plan APO

The standard Plan series are universal bright-field microscope objective, featuring good imaging uniformity and flat-field correction capabilities. They are suitable for daily industrial inspection, basic microscopic observation, teaching, scientific research, and other scenarios. The series offers various combinations of magnification and working distance, and has the characteristics of high cost-effectiveness and good platform compatibility, making it a reliable choice for basic optical microscopy systems.

Features:

· Infinity Corrected

· Long Working Distance

· Plan Apochromat

M Plan APO HR

The HR series objectives are designed for high-resolution industrial and research applications. Featuring a multi-group apochromatic design and high-precision processing technology, they provide excellent numerical aperture (NA) and high-contrast imaging capabilities. These objectives are particularly suitable for applications that require extreme image detail, such as digital microscopic imaging, chip packaging inspection, and microstructural observation. While maintaining clear imaging, the HR series balance a long working distance with good system compatibility, making it ideal for automated system platforms.

Features:

· Infinity Corrected

· Long Working Distance

· Plan Apochromat

· High-definition Imaging

M Plan APO IR

The IR series objectives are specifically optimized for the near-infrared to short-wave infrared (NIR/SWIR) bands, covering the typical infrared imaging range of 900–1700 nm. This series utilizes specialized infrared optical glass and infrared-enhanced coatings to effectively compensate for chromatic aberration shifts in infrared imaging, thereby improving system imaging accuracy. The IR series is suitable for applications such as silicon wafer inspection, infrared microscopy, MEMS inspection, and thermal analysis, serving as a crucial optical front-end for high-end infrared systems.

Features:

· Infinity Corrected

· Long Working Distance

· Plan Apochromat

· Wavelength Correction from 900 nm to 1700 nm

M Plan APO NUV

The NUV series objectives are specially optimized for the near-ultraviolet (NUV) band. They utilize optical materials with high ultraviolet transmittance and special coating processes to effectively control axial and lateral chromatic aberrations in this wavelength range. While maintaining high numerical aperture (NA) and resolution, these objectives achieve excellent imaging quality in the ultraviolet band, making them widely applicable to high-end scientific research and industrial fields such as micro-nano structure inspection, ultraviolet-excited imaging, and ultraviolet lithography systems.

Features:

· Infinity Corrected

· Long Working Distance

· Plan Apochromat

· Wavelength Correction from Near-Ultraviolet (355 nm) to Visible

Plan APO Fluor

Infinity Corrected Fluorescence objectives feature a precision-engineered apochromatic design optimized for high-sensitivity fluorescence imaging. Delivering excellent flatness, sharp contrast, and accurate color correction across the visible spectrum, they ensure superior image fidelity for multi-label fluorescence and live-cell observation. Designed for consistent performance under demanding biological conditions, they provide exceptional clarity from edge to edge.

Features:

· Infinity Corrected

· Plan Apochromat

· Low Autofluorescence Reduces the Objective Lens's Interference with the Signal-to-Noise Ratio

Plan NIR OIL

Infinity Corrected NIR Oil Immersion objectives feature a high-precision apochromatic design tailored for demanding near-infrared imaging. Optimized for oil immersion, they deliver outstanding resolution, flat-field performance, and superior clarity across the near-infrared spectrum. Ideal for applications requiring both high contrast and accurate color correction, they are engineered for stability and reliability in advanced imaging systems.

Features:

· Optimized for NIR

· Apochromatic Design

· High NA 0.8

· Oil Immersion