A research-oriented polarizing microscope is a commonly used instrument that utilizes the polarization characteristics of light to study and identify substances with birefringence. It can be used by a wide range of users for single polarization observation, orthogonal polarization observation, and cone light observation. The research-oriented polarizing microscope is widely used in the fields of geology, chemical engineering, production, and research and development for research and inspection. It can also observe the crystal phase of liquid polymer materials, biopolymers, and liquid crystal materials. It is an ideal instrument for research institutions and universities to conduct research and teaching.
Performance Characteristics
▲ Adopting an infinite optical system and modular functional design.
▲ Configure an infinite stress free long working distance flat field objective lens.
▲ Wide angle flat field eyepiece: field of view diameter of Ø 22mm.
▲ Coarse micro motion coaxial focusing mechanism, adjustable coarse motion tightness, with limit locking device, micro motion grid value: 2 μ m.
The polarization observation device can be moved in or out of the optical path, and both the polarizer and analyzer can rotate 360 °.
▲ Rotating stage, 360 ° equally divided scale, with a grid value of 6 ', adjustable center, equipped with a locking device, and a vertical effective stroke of up to 30mm for the worktable.
▲ Wide voltage power supply (85-265V 50/60Hz). 6V30W halogen lamp illumination with adjustable brightness.
The three eyepiece tube can freely switch between visual observation and microscopic photography, with 90% light transmission during photography, suitable for low light microscopic image shooting.


instrument parameters
model |
Research-oriented polarizing microscope |
eyepiece |
Wide field of view WF10X (Φ 22mm) |
Dividing eyepiece 10X (field of view Φ 22mm) grid value 0.10mm/grid | |
objective lens |
Stress free flat field achromatic objective lens (without cover glass) |
PL L5X/0.12 working distance: 26.1 mm | |
PL L10X/0.25 working distance: 20.2 mm | |
PL L40X/0.60 (spring) working distance: 3.98 mm | |
PL L60X/0.70 (spring) working distance: 3.18 mm | |
Falling light illumination system |
6V30W halogen lamp, adjustable brightness |
Polarizer can rotate 360 ° | |
The analyzer can rotate 360 degrees, with a scale and micro cursor, | |
Built in field of view and aperture stop | |
converter |
Four holes (adjustable converter center) |
Intermediate connecting tube |
Push in Burgundy mirror |
compensator |
λ , λ/4 and quartz wedge compensator |
Eyepiece tube |
Triple eyepiece tilted at 30 °, capable of 90% transparency photography |
focusing mechanism |
Coarse micro coaxial focusing with locking and limiting devices, micro grid value: 2 μ m |
防霉 |
Anti mold system |
System Composition |
Computer type (WMP-6503C): 1. Polarized microscope 2. Adaptor lens 3. Camera (CCD) 4. Computer (optional) |
Digital type (WMP-6503D): 1. Polarization microscope 2. Adaptor lens 3. Digital camera (optional) |
Optional accessories
name |
Category/Technical Parameters |
objective lens |
Stress free flat field achromatic objective lens (without cover glass) |
PL L 20X/0.40 working distance: 8.80mm | |
PL L50X/0.70 (spring) working distance: 3.68 mm | |
PL L80X/0.80 (spring) working distance: 1.25 mm | |
PL L100X//0.85 (spring) working distance: 0.4 mm | |
converter |
Five holes (inward ball positioning) |
Mobile ruler |
Mobile range: 30mmX25mm |
CCD connector |
0.4X |
0.5X | |
1X | |
0.5X with dividing ruler, grid value 0.1mm/grid | |
camera |
DV-1 Video output (380/520 TV cable), USB output (420000 pixels) |
DV-2 with USB output (130/300/500/1 million pixels) | |
DV-3 with Video Output (380/520 TV Cable) | |
Digital camera connector |
CANON(A570,A610,A620,A630,A640,A650,EF) NIKON( F) |
software |
Polarization image two-dimensional measurement software |


