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UIS2 Optics Provide Outstanding Expandability

Maximizing the advantages of infinity correction, the UIS2 optical system helps prevent the deterioration of optical microscope performance and eliminates magnification factors, even when polarizing elements, like analyzers, tint plates, or compensators, are introduced into the light path. The BX53-P microscope also accepts intermediate attachments available for BX3 series microscopes, as well as cameras and imaging systems.

Zonal structure of Plagioclase in quartz diorite. *Scales Indicate actual size of samples

Optical texture of MBBA  *Scales Indicate actual size of samples

Bertrand Lens for Conoscopic and Orthoscopic Observations

With a conoscopic observation attachment, switching between orthoscopic and conoscopic observation is simple. It is focusable for viewing of clear back focal plane interference patterns. The Bertrand lens is focusable for clear viewing back focal plane interference patterns. The  field stop makes it possible to consistently obtain sharp conoscopic images.

An Extensive Range of Compensators and Wave Plates

Six different compensators are available for measurements of birefringence in rock and mineral thin sections. Measurement retardation level ranges from 0 to 20λ. For easier measurement and high image contrast, Berek and Senarmont
compensators can be used, which change the retardation level in the entire field of view.

MEASURING RANGE OF COMPENSATORS
Compensator Measurement Range Applications
Thick Berek
(U-CTB)
0–11000 nm
(20λ)
Measurement of high retardation level (R*>3λ), (crystals, macromolecules,fi ber, etc.)
Berek
(U-CBE)
0–1640 nm
(3λ)
Measurement of retardation level (crystals,macromolecules, living organisms, etc.)
Senarmont
Compensator
(U-CSE)
0–546 nm
(1λ)
Measurement of retardation level (crystals, living organisms, etc.);
enhancement of image contrast (living organisms,etc.)
Brace-Koehler
Compensator1/10λ
(U-CBR1)
0–55 nm
(1/10λ)
Measurement of low retardation level (living organisms, etc.)
Brace-Koehler
Compensator1/30λ
(U-CBE2)
0–20 nm
(1/30λ)
Measurement of image contrast (living organisms,etc.)
Quartz Wedge
(U-CWE2)
500–2200 nm
(4λ)
Approximate measurement of retardation level (crystal, macromolecules, etc.)
*R = retardation level
For more accurate measurement, we recommend that compensators (except U-CWE2) be used together with the interference fi lter 45-IF546

Minimal Strain Optics

Our polarized light objectives reduce internal strain to a minimum. This means a higher EF value, resulting in excellent image contrast.

 

Observation Method Brightfield  
  Polarized Light  
  Simple Polarized Light  
Focus Focusing Mechanism Stage Focus
Stage Mechanical Precision Rotatable Stage
  • Rotation: 360 degrees
Condenser Manual Polarizing Condenser NA 0.9/ W.D. 1.3 mm (slide glass 1.5 mm) (4X–100X)
Observation Tubes Widefield (FN 22) Trinocular
    Tilting Trinocular
Dimensions (W × D × H)     274 (W) x 436 (D) x 535 (H) mm
Weight     16 kg