Inverted Microscopes

Most microscopes that you see in a typical laboratory environment are compound microscopes. They are designed with objectives on a rotating nosepiece mounted above the stage, and the light source and condenser below the stage. They are most commonly used for viewing samples that have been fixed to a flat slide.

In certain applications it is necessary to look at live, unfixed samples. A more practical microscope design to use is the inverted microscope. An inverted microscope is a microscope with its light source and condenser on the top, above the stage pointing down, while the objectives and turret are below the stage pointing up. Inverted microscopes are useful for observing living cells, tissues or organisms at the bottom of a large container (such as a tissue culture flask). This allows you to examine the specimen under more natural conditions than on a glass slide, as is the case with a conventional compound microscope. You can place a Petri dish or other container on the stage and view the samples from below, thus not disturbing their more “natural” states. Larger, covered samples are less susceptible to evaporation and increases in temperature, thus preserving suitable living conditions for the specimen you are viewing.

Because of the fact that you have to look through thicker containers you often find the objectives to be long working distance or ultra-long working distance. These objectives have been corrected for observing samples that are further away than what you normally see on a compound microscope. The image may not be quite as clear as when you are looking at a perfectly flat slide. You may want to use a plastic Petri dish rather than a glass one as the plastic dishes are thinner and more uniform. Most inverted microscopes will have objectives that range from 4-40X, with 60X being an added option. You do not usually find inverted microscopes that incorporate 100X objectives.
Inverted microscopes can be configured for work in electrophysiology, in vitro fertilization, micromanipulation, high-resolution DIC, video-enhanced observations, and a variety of advanced fluorescence techniques. Motorized accessories can include shutters, filter wheels, revolving nosepieces, fluorescence block turrets, focus drives, and condensers. Inverted microscopes also allow you to add advanced objectives for water immersion, ultraviolet excitation, and phase contrast. Prices for inverted scopes vary according to the number and types of accessories you add to them, just as in compound microscopes.

The fundamental advantage of an inverted microscope is that it allows you to accept a container with a large and relatively long-lived diverse culture of live organisms without any preparation. This can be invaluable to work which requires the sample to be alive and in as natural an environment as possible.

Author Name: Rowland Brasch : Nationalmicroscope.com

Inverted Microscopes

Digital Microscope

A digital microscope is real 21st century advancement on microscope technology. It comes with software for your computer that allows you to see real-time images on your monitor of what you're observing with the microscope. Take a step into the modern age by learning how to use a digital microscope.

With the advent of computers and the digital era things have improved a lot. You can now buy a handheld digital microscope from the market at affordable prices which will plug straight into the USB port of almost any computer, and displays and records the image in real-time. A digital microscope still uses optics much the same way as a traditional microscope, but also has a built-in digital camera, which works just like a webcam but with magnification. The software that comes with these cameras will let you take still or video pictures while magnifying the image by 200 times or more. You can then use your regular image software to manipulate and use the picture in many ways.

Although these digital microscopes are obviously great in a science classroom environment where a teacher can present and discuss a rapid sequence of images, don't neglect their home use. Digital microscopes offer an amazing insight into the world around us from a rarely seen perspective.

Digital microscopes were brought to a new level of excellence with the introduction of Olympus' MIC-D. The MIC-D uses a USB connection to the computer for live, full-color images to be displayed on a monitor screen. The design of the MIC-D is inverted, which means that the lens is tilted up at the stage instead of positioned down at the specimen. This feature allows large objects and dishes of water to be magnified with amazing clarity. A further innovation of the MIC-D's design is that it uses one master lens instead of a series of fixed lenses.

Author Name: Kathy Brasch : Nationalmicroscope.com

Digital Microscope

Stereo Microscope

A stereo microscope is used for comparing two side-by-side specimens. It consists of two regular microscopes connected together with an optical bridge. They are commonly used in fields such as forensics, where fingerprints, DNA or a sample must be compared in great detail to another. A stereo microscope provides the viewer with an upright and laterally correct image as opposed to the upside-down and backwards image that a compound microscope provides. The stereo microscope also has a greater distance in most cases between the stage and the objective, so that the specimen can be worked on or dissected while it is being viewed.

The stereo microscope, by virtue of its twin eyepieces, allows you to view your specimen with both eyes and get a much more accurate view of its surface. The human visual system only perceives depth accurately when both eyes are viewing an object, so using a compound microscope with one squinting eye can produce a distorted idea of what is actually being seen.

The stereo microscope also has two magnification systems: fixed and zoom. Fixed magnification is achieved using a pair of objective lenses with a set magnification degree. Basically, the degree of magnification that you get solely depends on what your lenses are capable of.

Stereo microscopes are also capable of digital displays, as in the case of digital microscopes. Having the image projected on a high resolution monitor is very useful especially in surgeries. Microscopes have truly gone a long way. Previously, only one lens is used; today, microscopes with two optical paths are in existence.

Zoom magnification, on the other hand, allows the user to use varying degrees of magnification. Have you ever heard of the terms "zoom in" and "zoom out?" Stereoscopes with zoom magnification are capable of handling slide-prepared specimens. The versatility of a stereo zoom microscope means that you’ll never be without a way to study whatever catches your eye.

Author Name: Kathy Brasch : Nationalmicroscope.com

Stereo Microscope

Trinocular Microscope

A Trinocular microscope is virtually the same as a binocular microscope but adds a third eyepiece tube. Trinocular microscope models have two eyepieces for normal viewing, plus a third "phototube" on which you can mount a camera without interfering with the normal operation of the microscope. No, it's not for people with 3 eyes, but for people who wish to attach a camera to the third eyepiece and be able to photograph or video what they can see through the two eyepieces. You should consider purchasing a trinocular microscope if photography is needed option.

There are many different methods for capturing, displaying, and recording microscope images, and each has its own advantages and disadvantages. It would be impossible to cover all of these options here but access to these options is important in selecting your microscope. It is possible, but not practical to mount a camera on a monocular or binocular microscope.

A trinocular microscope may be an optical, acoustic, or an electron microscope. In other words, it may be a microscope in which the specimen is illuminated by visible light, by sound, or by a particle beam of electrons. The third eyepiece can also be added to a stereo microscope. A binocular compound microscope uses one lens array for the objective but has a pair of eyepieces, with the light from the image formed by the objective split by a prism.

A trinocular microscope has one of several purposes. One purpose is to allow a second viewer access to a specimen at the same time as the person who is mainly using the microscope. Another purpose of a trinocular microscope is to allow the use of technology to either preserve the images seen through the microscope by recording them or projecting them.

We start with the premise that choosing a microscope should be an enjoyable process! There are a number of variables that go into selecting any kind of microscope system like a trinocular microscope, monocular or binocular microscope. The process can be a little daunting. Moreover, there is a bewildering range of quality - from cheap plastic microscopes to the most expensive German and Japanese brands.

Microscopes are configured to suit different applications. It is important to ensure that you purchase a microscope that is well-suited to your application.

Author Name: Kathy Brasch : Nationalmicroscope.com

Trinocular Microscope