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Glossary of Terms
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Below you will find
definitions of terms used in
this site, and in microscopy in general.
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Abbe
Condenser: an advanced illumination system which uses a
lens under the stage that would typically move in the
vertical direction. It would usually also have an adjustable
iris to control the beam diameter of the light prior to
entering the lens. By adjusting the iris opening and the
lens distance from the target, the user has very good
control over the amount of light and its focal point.
Usually found on the more advanced microscope systems and
very useful at higher magnifications (400X and above).
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Achromatic
lens: a lens specially designed and coated to correct
for the tendency of light to separate into colors when
passing through glass. An achromatic lens corrects this such
that colors are more accurate after being magnified.
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Binocular
microscope: A compound microscope with two eyepieces
viewing down a single optical channel and objective. This is
different than a stereo microscope,
which has a separate optical channel for each eye.
Click here for an example.
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C-mount & CS-mount: a.k.a.
C/CS-mount, is a threaded standard developed for mounting
a lens to a camera. Most commonly used for video cameras
(i.e., CCTV cameras, not camcorders), and is used to mount
cameras to microscopes. The mechanical definition of both
standards is 1" diameter, 32 TPI (threads per inch),
male on the lens (or microscope) side and female on the
camera side. The optical definition of the C-mount is that
the image reaches the focal plane, or camera's detector, at 17.5mm past the edge of
the lens' (or microscope's) mounting threads. The CS-mount is identical in all
respects except the focal plane is 12.5mm past the mounting
threads. A CS-mount camera can be mounted on a C-mount lens
or microscope by using a 5mm extension ring. See also: T-mount.
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Coaxial
Controls: A configuration where one knob is
centered on top of another. For example, coarse and fine
focus may have a larger coarse focus knob with a fine focus
knob on top of it (so the center of both knobs is on the
same axis).
Also commonly used for Mechanical
Stage X/Y movement knobs.
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Compound
microscope: Literally a microscope with multiple lenses,
however that describes virtually all modern microscopes. It
has come to refer to a microscope such as that pictured at
the top of this page. It would typically include
multiple user-selectable objective
lenses of varying magnifications and present a
two-dimensional view. See also: stereo
microscope.
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Digital
microscope: A microscope and video camera combination
with a digital output such as USB or firewire. Often
includes software to display the image on a PC.
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DIN
Standard Objectives: (Deutsches Institut fuer Normung)
An international standard which dictates the design compatibility
of the objective lens. Therefore DIN standard objectives
from one manufacturer can be used in another manufacturer's
DIN standard compatible microscope.
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Doublet
lens: a lens design that is actually two different
lenses cemented together (usually one positive magnifier and
one negative). This design is used in widefield
eyepieces to obtain significantly better color
performance than single lens designs.
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Dual-view
microscope: A monocular
microscope with a second, vertical viewing port. The
vertical port can be used with an eyepiece for a second
person, such as an instructor, to view the specimen, or it
can be used with an adapter and a video or still camera.
Click here for an example.
See also: trinocular microscope.
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Eyepiece or Ocular:
The lens closest to your eye when looking through a microscope. A binocular or stereo microscope will have two,
a monocular microscope will have one. It also plays a
critical role in the total system magnification. See also widefield
eyepiece.
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Eyepiece Tube or Eyetube:
The tube into which the eyepiece lens (ocular) is set. This
is typically presented at an angle for comfortable viewing
such as in the picture at the top of this page. However it may also
be mounted in a vertical position such as on a trinocular or
dual-view microscope for either a second viewer,
or for a camera designed to fit inside an eyetube.
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FPS:
frames per second: Used to indicate the speed in
which a video image is refreshed and displayed on a monitor.
In video microscopy this is usually controlled by the
camera. The faster the refresh rate (number is larger), the
"smoother" any movement of the specimen will appear.
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Interpupillary
Distance: Distance between the two eyepieces. Typically
it is adjustable to accommodate different users. Some
microscopes also have graduated scales to indicate the
actual distance between the eyepieces, allowing a user to
determine the optimum number and then quickly set
it before each use.
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Koehler
illumination: A highly effective illumination design.
Please click here
for a more detailed definition.
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Mechanical
stage: A mechanism mounted on top, or as part, of the stage that
allows the operator to move the specimen slide in the X or Y
direction by turning a knob. Very useful at higher
magnifications as it can be difficult to move the slide by
hand otherwise since it must be moved such a small amount.
Also, moving by hand can be difficult since you must move it in
the opposite direction. Most mechanical stages come with a graduated scale so you can
see how far the slide has been moved or keep track of the
position of various objects on the slide.
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Monocular
microscope: A compound microscope
with one eyepiece such as that pictured at the top of this
page.
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Objective
lens: The lens in a microscope closest to the specimen.
In a compound microscope there are usually 3, 4 or 5 objective
lenses allowing a selection of magnification levels.
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Oil
Immersion lens: A lens designed to be immersed in oil.
A drop of immersion oil is placed on top of the cover glass
and the lens is slowly lowered until it rests in the oil.
This allows the light to pass through oil rather than air,
and at higher magnifications results in a crisper, higher
contrast image. Primarily seen on more advanced systems.
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Parcentered:
A lens design such that specimens that appear centered in
the field of view at one magnification level will also
appear centered when the magnification level is changed. See
also: parfocal
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Parfocal:
A lens design such that specimens that appear in focus at
one magnification will also appear focused when the
magnification level is changed. Keep in mind, however,
that depth of field (how much of a specimen's height will
appear in focus at one time) changes significantly when
magnification is changed. The higher the magnification,
the shallower the depth of field. See also: parcentered
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Phase Contrast: A technique using
special objectives and condenser system to enhance the contrast of
unstained, relatively transparent specimens such as blood and
other tissue cells, thereby allowing microscopic viewing of living
tissue. It is a sophisticated technique that shifts the light
"phase" 1/4 wavelength, causing any light deviated by the specimen to
appear dark on a light background. Development of this technique
by inventor Frits Zernike earned him a Nobel prize in physics in
1953. An excellent, more detailed discussion of this process can be found on the
Molecular Expressions web-site
here.
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Rack Stop: A safety feature
consisting of a mechanical stop, usually adjustable, which
prevents the objective lens from
hitting the microscope stage.
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Seidentopf:
a head design where the interpupillary adjustment
(increasing or decreasing the distance between the
eyepieces) is achieved by twisting the
eyepieces in an up and down arc motion like binoculars.
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- Slip
Clutch: A safety device usually located on the focus
knob allowing the knob to "slip" and continue turning
when it reaches the end of its travel, or if it runs into
the stage. Due to the gear ratios involved, without this it
may be possible to damage the mechanism by applying too much
force to the knob after it has reached the end.
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Stereo
microscope a.k.a. dissecting microscope: A microscope
with a separate optical channel for each eye (eyepieces and
objectives) which allows viewing in three dimensions. See
also: compound microscope.
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- Turret
or Objective Turret: The rotatable metal piece into
which the microscope's objective lenses
are attached. A "turret" style stereo
microscope refers to the type that has more than one
objective lens which can then be rotated into position. On a
compound microscope the turret is
the ring holding the objective lenses allowing the operator
to rotate them into position as needed. See the picture at
the top of this page.
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T-mount: A photographic mechanical
mounting standard developed in 1957 originally intended as a
universal lens mount for 35mm cameras. There are now
T-mounts available for a large variety of digital and film
cameras making it a good method for mounting cameras to
microscopes. The thread (a.k.a. T-thread) is specified as
42mm diameter and 0.75mm pitch, or M42-.75. See also:
C-mount
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Trinocular
microscope: A binocular
microscope with a third, vertical viewing port. The vertical
port can be used with an eyepiece for a second person, such
as an instructor, to view the specimen, or it can be used
with an adapter and a video or still camera. Click here
for an example. See also: dual-view
microscope.
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Widefield
eyepiece (WF): an eyepiece with an achromatic
doublet lens designed in such a way
that it does not have to be limited to viewing only in its
center, and the portion of the lens that allows
non-distorted viewing is larger than a normal lens. This
appears to the user as a bigger aperture or "hole"
to look through. It therefore has the advantage of being
easier to use and more forgiving of a user's head movements.
An eyepiece listed as WF10X/18mm would indicate
it has a widefield achromatic doublet lens, 10X
magnification and is 18mm in diameter.
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