Olympus BX2 SERIES Information - Page 5

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Olympus BX2 SERIES Information
An upgrade in polarization
characteristics.
Thanks to Olympus' sophisticated design
and manufacturing technology, the ACHN-P
and UPLFL-P strain-free objectives reduce
internal strain to an absolute minimum.
Olympus has also totally redesigned its
polarizers and polarizing condensers to
further enhance performance in polarized
light. This means a higher EF* value,
resulting in unmatched image contrast.
To meet a diversity of research and
application requirements, the universal
UPLFL-P Series objectives have been
designed to accommodate a wide range of
observation methods, including Nomarski
DIC and fluorescence microscopy,
in addition to polarized light observation.
*The EF (extinction factor) is the brightness ratio between
parallel and crossed pol-filters. The higher
the EF value, the better the extinction.
UPLFL-P Series
ACHN-P Series
UPLFL-P Series
Item
N.A.
UPLFL
4XP
0.13
UPLFL
10XP
0.30
UPLFL
20XP
0.50
UPLFL
40XP
0.75
UPLFL
100XOP
1.30
PLN
Item
N.A.
PLN
4XP
0.1
ACHN-P Series
Item
N.A.
ACHN
10XP
0.25
ACHN
20XP
0.40
ACHN
40XP
0.65
ACHN
100XOP
1.25
*All UIS2 objectives and WHN eyepieces: lead-free eco-glass
o
qU-TP530 wU-TP137 eU-TAD rU-CBR1 tU-CBR2 yU-CWE2 uU-CSE iU-CBE oU-CTB
An extensive range of compensators
is available.
Six different compensators are available
for the BX51-P microscope, allowing
measurement of various retardation
levels, ranging from 0 to 20 . For easier
Measuring range of compensators
Compensator
Thick Berek (U-CTB)
Berek (U-CBE)
Senarmont compensator (U-CSE)
Brace-Koehler compensator 1/10 (U-CBR1) 0-55nm (1/10 )
Brace-Koehler compensator 1/30 (U-CBE2) 0-20nm (1/30 )
Quartz wedge (U-CWE2)
*R= retardation level
For more accurate measurement, it is recommended that compensators (expect U-CWE2) be used together with
W.D.
the interference filter 45-IF546.
13.0mm
3.1mm
1.6mm
0.51mm
0.10mm
W.D.
18.5mm
t
W.D.
6.0mm
3.0mm
0.45mm
0.13mm
qU-CPA wU-P4RE eU-AN360P-2 rU-OPA tU-POC-2
q
w
e
u
i
Measurement range Applications
0-11,000nm (20 )
Measurement of high retardation level (R*>3 ), (crystals, macromolecules, fiber, etc.)
0-1,640nm (3 )
Measurement of retardation level (crystals, macromolecules, living organisms, etc.)
Measurement of retardation level (crystals, living organisms, etc.)
0-546nm (1 )
Enhancement of image contrast (living organisms, etc.)
Measurement of low retardation level (living organisms, etc.)
Enhancement of image contrast (living organisms, etc.)
500-2,200nm (4 )
Approximate measurement of retardation level (crystal, macromolecules, etc.)
q
r
e
r
y
measurement, the direct readout method
is featured. Higher image contrast can be
attained by using a Senarmont* or Brace-
Koehler compensator to change the
retardation level in the entire field of view.
* Used with monochromatic green filter, IF546 or IF550.
Unmatched sharpness
in orthoscopic and
conoscopic observations.
With a U-CPA conoscopic
observation attachment,
w
changeover between
orthoscopic and cono-
scopic observation is simple
and quick.
Focusing of conoscopic
images is easy and
accurate. Employing
a Bertrand field stop
makes it possible to obtain
consistently sharp and clear
conoscopic images.
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