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Posts Tagged ‘Microscope’

You have your new microscope but you are not done with it yet. On top of purchasing the microscope, you need microscopy accessories to keep your instrument in top shape and to enhance its imaging performance.

Accessories to Accessorize With

A functional wristwatch or a real leather briefcase can do much to improve one’s corporate image. In microscopy, accessories are designed to protect the microscope and to give microscopy convenience. Say if you are in the middle of doing microscopic research, you do not drop what you are doing because you ran out of slides or immersion oil, which are the basic accessories of a microscope. Can you imagine the magnitude of the disaster?

You will also require a carry case for your microscope, dust covers, clamps, black and white stage plates, stage clips, and much more to satisfy your microscopy needs. On the other hand, auxiliary accessories will depend on the type of microscope you are using.

The auxiliary accessories encompass a diverse range of items. There are micromanipulators, stands, temperature control stages, and stage incubators. There are also mechanical systems to customize science research.

Before buying that microscope, check out the microscopy accessories take note or make a list of the items you might need for the interiors of your microscope. However, do not attempt to replace interior parts unless you know the nuts and bolt of your microscope’s insides. Suppliers of microscopes will be willing to do the job for you.

The Difference Counts

Microscopes have different functions and technology specializations; hence these require different microscopy accessories. Each microscope demands a different, if not unique, sets of accessories. When you take home a microscope, say a digital microscope, you will need imaging software. For a fluorescent microscope, enhanced illumination plays a factor; you’ll be shopping for better illumination accessories.

If what you have is an ocular piece, lenses are available should you need a new set. But for a digital microscope you will need a larger monitor or screen to enjoy greater magnification of your specimen or subject. As a rule, pricier accessories reflect quality, especially if you are dealing with a specific brand. Makers of microscopes have accessories for their different types of microscopes and models.

There are cheaper accessories available. These can come in handy if money is tight but if you can, always get the same brand accessories for your microscope. The manual that goes with your microscope is a big help if you want to know specific details of your microscope accessories needs.

Nothing Lasts Forever

Things come and go. Microscopes too. If you have been using your microscope for years and its beginning to show wear and tear, count and compare the cost of costly repairs with the frequent purchase of accessories.

The local dealer should have a wide range of selections for your microscopy accessories. If your microscope brand does not have the accessory you need, you can always find a different make of accessory that can be easily integrated into your microscope.

With proper care and handling, your microscope will go a long way but along the way you’ll need microscopy accessories. It’s better to know what you will need later and where to get it.

CanScope – complete solution for all your microscopy needs.

Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

Looking for microscopy accessories in Toronto? If you need Achromat and Plan Apochromat Objectives in Toronto or biological microscopes in Toronto, you can find it all in CanScope.ca. Visit the site now.

When you hear the term inverted microscope, you probably think of observing samples from under a microscope. You probably get an image similar to a car mechanic fixing something under a vehicle. It is a funny image but this is not exactly the case when it comes to these kinds of microscopes. The only inverted parts of these tools are the source of light and the objectives that enable you to see the sample plane. Besides, a microscope that places the observer under the equipment will be ill-designed. Just imagine the risks of the specimen toppling and falling onto the observer.

What Does an Inverted Microscope Look Like?

An inverted microscope has the light source and condenser on the top. They point down to the stage where the specimen is placed. The objectives and turret are under the stage. They point up to the bottom of the plane. Just like upright microscopes, the specimen is placed on top of the stage. The binoculars are not pointing up, as one would imagine, but pointing down.

How Does an Inverted Microscope Help in Living Cells Studies

Results of living cells studies should be derived from observations of live cells. This can be done with a typical upright light microscope. The method involves taking a small sample, placing it on glass slide, covering it with a slip, and keeping it moist with water. This is effective and has been used countless of times. However, there are some pitfalls to this method. First of all, by taking a sample from the culture, you are most likely altering the natural processes of the cells. Moreover, the cover slip will put pressure on the specimen, thus altering its processes, too. The water that you use to replenish the sample can also affect its life. Obviously, using an upright light microscope is not ideal for a prolonged observation of living cells.

But if you utilize an inverted microscope, the chances of observing them for a long period of time increases. This is possible for various reasons. One is that you will not have to remove a sample to be placed in a glass slide. The design of the microscope allows for bigger objects to be placed on the sample plane. For instance, if your sample is in a petri dish, you can place it on top of the stage. This way, there will be no pressure on your specimen and the environment will not be altered with constant water replenishment.

Since living cells constantly change from one form to another, being able to observe them for a longer period of time without killing them is essential if you are to study them. Sure these microscopes are a little bit expensive but if living cells study is your field, it is wise to invest in one. The results of your studies will be a whole lot better and you will not regret ever buying it. There are also aspects where the microscope can still be improved but you cannot deny the fact that in most cases, using this microscope is better than using a light microscope or an electron microscope.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

If you are interested in purchasing an inverted microscope in Toronto, you can visit CanScope.ca. Aside from inverted types, they also have upright microscope and accessories, such as an epi-fluorescent attachment for you to choose from.

Kids are curious. They speak their mind. They want an explanation for everything. Kids always ask why. As such, their curiosity must be satisfied. If you are a parent and you notice that your kid has displayed a keen interest on medicine, buy him toys about the different systems and organs of the body. If your nephew, for instance, is a bit curious about astronomy, buy him a solar system toy. This is a cheap yet great way of getting him/her started in following the footsteps of Nicolaus Copernicus.

If you noticed that your kid has shown interest on the micro-world – perhaps you observed that he constantly plays with his magnifying lenses – then get him one of those educational microscopes. Don’t go for toys – get a real microscope, but at a lesser price.

There are many educational microscopes out in the market. They are especially designed for children – to satisfy their curiosity about the things that they cannot see using their naked eyes. By telling them that they can see what a drop of blood really looks like through these educational microscopes, perhaps, they would never be frightened anymore the next time that they go to the lab and have a blood extraction. Do tell them however, that educational microscopes cannot let them see ghosts. In this context, ghosts do not fall under the category: “invisible to the naked eye.”

But with the many versions and types of educational microscopes out there, how do you know which one to choose? How do you know which one to buy? Do you even know what an educational microscope looks like?

Well, you don’t need to have a Masters Degree or a PHD to know what an educational microscope looks like. You simply have to ask the right questions. Surely, stores that specialize on microscopes know the difference between veterinary microscopes and educational microscopes.

The store attendants may present to you different models, such as The Travel Lab, the MicroQuest, The Explorer II and The Observer III. That’s a lot to choose from. But the secret to getting the educational microscope perfect for your kid’s needs is in matching his/her preference and your budget.

If your kid is aged 10-12, for instance, he may find The Observer II appealing because he can make a lot of adjustments with that model. But if he is younger than 10 year old, and is just starting to exhibit his interest in Science, then you can get the Travel Lab or the MicroQuest for a start. These are the best in starter scopes and they even come with microscopy accessories such as specimen containers and blank slides. Plus, this type of educational microscope would not cost you much.

As a parent (or a guardian, an aunt, an uncle a godfather or practically anyone dealing with kids), you need to support your child’s education. Not all kids are natural observers and natural inquisitors. Thus, if your kid happens to be one, nurture such instinct. Get him one of those educational microscopes right away. At 10 years old, he may not know yet what a fluorescent filters cube is. But with your guidance and support, it won’t be for long before he can explain to you what that term truly means.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

For all your microscopy needs – microscopes in Toronto, educational microscopes and even a fluorescent filters cube – visit CanScope.ca. What are you waiting for? Check out site now and be amazed!

Have you ever wondered how doctors and scientists seem to know exactly how cell divides, what they look like, and what they do? At some point in your life, you may have peeked under a microscope in a biology class. You probably felt the images weren’t that interesting or colorful. But if you had done the looking through a fluorescent microscope, you would have whistled a a different tune. Why?

Light and Colors

Contrary to the common field microscope that uses reflection and absorption techniques to create magnified images of specimen, the fluorescent microscope uses light to excite specimens to emit light of longer wavelength. Fluorescence is an intrinsic property of substances where it becomes luminescent when excited by a radiation. Simply put, a fluorescent microscope is a light microscope with extended capabilities and added features. A more intense light is used in microscopy that excites fluorescence in the specimen which then emits a longer light wave length. Scientists use markers to distinguish emitted wavelengths by different colors. This technology shows digitally clear color images of microscopic organisms under probe. This technique of using transmitted light through a specimen is known as Kohler illumination, after the brilliant mind who sought to overcome the limitations of previous technologies, August Kohler.

Fluorescent Microscope in Life Sciences

Unlike metallurgical microscopes used for inspecting ceramics, metals and other inorganic materials, the fluorescence microscope finds its best uses in biology and life sciences. Rapidly expanding observation technique in medicine and biology, a range of more sophisticated techniques has evolved from it. More advanced technologies such as the multiphoton and canfocal microscopies are now combined with chromophore and flourophore advances now make intracellular observations even in unicellular molecules possible. Where the cell was acknowledged to be the smallest biological unit a few decades past, components of the human DNA are no distinguishable observations under these powerful tools.

Some have an inverted frame most suitable for viewing tissue cultures and similar applications. These designs provide illumination using an episcopic optical pathway.

Examples of Fluorescence Microscopes

Olympus BX51 Upright Microscope is a modern design of an epi-flourescent microscope with a vertical illuminator. The illuminator houses a xenon or mercury arc lamp and a turret of filter cubes. Source light travels through the lamp house through two diaphragms and into the cube holding the excitation and emission filters, as well as a dichroic mirror

Olympus IX70 Inverted Microscope. This inverted frame uses epi-illumination from an internal lamphouse. Light travels from the lamphouse via a collector lens into a cube holding the filters and a dichroic mirror

Both these examples are professional or research grade equipment. These both show the full range of capabilities a basic illuminating microscope is capable of. There are even more powerful microscopes with far more advanced features using highly advanced techniques. One of the more popular ones, confocal microscopy, now offers point-scanning capabilities with the latest from Olympus, the FluoView Laser Scanning Confocal Microscopy.

Other highly advanced techniques like Multiphoton Excitation Microscopy combine multiple techniques to capture high-definition, three-dimensional, and full color images of specimens. These are the best there is in research equipment, and these will change your life from the very first instant that you use them.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

Yes, you can see the invisible with a fluorescent microscope in toronto. Get started using one – or a metallurgical microscope – and learn more about Kohler illumination! Visit CanScope.ca today.

To understand the microscope more, you need to understand its parts. You need to understand what each part is capable of.

This article, however, will only focus on the lenses system – the whole group responsible in forming the image.

The Eyepiece

Without this part, you cannot see the specimen being examined. This is by far, among the most important parts of the microscope. This is a cylindrical tube which contains a lens. Stereo microscopes have two eyepieces, while a compound microscope only has one.

The Objective Lenses

The primary role of the objective lenses is to gather light from the object or specimen being observed. There are several objective lenses in a microscope. Each lens varies according to magnification to provide you with more options for better specimen examination.

Sometimes, special objectives are used for certain examination techniques. The phase contrast – developed by Frits Zernike – is by far the most sophisticated. The phase contrast technique is basically about enhancing contrast. As a general rule, you can easily differentiate two specimens or even objects if they have high contrast – white is better seen when set against a black background.

Books and even Internet articles that explain the phase contrast method seems too technical for this kind of article – one that’s focused in explaining the lenses system of the microscope. Still, to give you an idea on the concept of the phase contrast microscopy, this simple explanation would do:

It’s a bit hard to have a microscopic view of living tissues (such as blood) because most of them are transparent. These kinds of specimen are usually called phase objects because they do not absorb light – instead, they diffract (to cause the bending of the waves) them. As a result of the bending, the light becomes less visible (by 1/4 wavelength). Let’s not discuss what 1/4 wavelength really means but simply put, it suggests that such a reduced property of light cannot be seen by your naked eye, not even by a camera.

It is in this context that the phase contrast technique becomes very useful. Somehow, this technique – using special objectives and a condenser – is able to solve such a problem. It is able to yield an image that is darker than its light background.

Other special objectives are the infinity-corrected optical systems – where the image distance is set at infinity. These lenses are great for biomedical and industrial microscopes.

The Nosepiece

As mentioned, most microscopes have more than one objective lenses. As such, these objectives need something to hold them together – and this is where the nosepiece comes in handy.

The Tube

This is the very thing that holds the eyepiece and the objective lenses – but at an appropriate distance. This is responsible for keeping away stray light. While the lenses are already powerful enough, some still prefer to use accessories such as a fluorescent filter. This is done in order to get optimum lighting and for special viewing techniques.

Once again, these parts only refer to the lenses system of a microscope. These are the ones responsible in forming the image of the specimen. You still need to acquaint yourself with the other parts – such as the illumination system and specimen control to better understand how the microscope works.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

Learn more about infinity corrected optical systems, phase contrast microscopy and fluorescent filter kits. Make use of a microscope. Visit CanScope.ca now.

In school, you were probably able to view specimens using biological microscopes during Lab class. Tissues of different items and other cellular matters were definitely fascinating to see magnified under a microscope. If you were not asked to memorize each and every part of the specimen you were checking, you’d have enjoyed these classes immensely.

In the real world, biological microscopes are used in ways that you will find interesting. They are more than just laboratory equipment that are used to study the components of certain matters. They also serve a higher purpose. They keep our world from being overtaken by pepole with bad intentions and organisms that are naturally programmed to wreak havoc on our fragile lives.

Take it from CSI

If you have seen a single episode of CSI and other crime investigation shows, you will notice that a huge part of investigating a crime involves probing and analyzing objects in a laboratory. Complete with white lab coats and the latest equipment, detectives are able to figure out the pieces of a crime scene. With a few deduction processes and rounding up of witnesses, they are able to find the suspect and close a case. Sounds ideal and exciting and you probably think that this can only happen in movies.

You may be inclined to think that police departments are not entirely high-tech because they are government-subsidized but these laboratories are really a big part of investigating crimes these days. After all, if detectives can employ psychics and other paranormal techniques in solving a case, what makes you think that they will not rely on the steady and consistent results of laboratory analysis? DNA analysis to catch suspects are all the rage these days but we cannot discount the help of biological microscopes in case investigations.

Our police departments today may not have all equipment that is being used in CSI shows but they definitely have microscopes. They use them for analyzing all aspects of a crime scene. When you really think about it, these microscopes are part of the intricate system that helps keep our streets safe.

Keeping the World Free from Little Enemies

Biological microscopes are also used in keeping the whole of mankind safe from viruses and bacteria that can possible wipe out the entire human race. One example that hits close to home is the flu virus. This virus has many strains that affect most of us a few times a year. Not all of these strains have an effective cure or vaccine. With the use of microscopes and other equipment, scientists are able to analyze how these strains behave and which substances can help kill them. Without our ability to study them at a cellular level, our world will not be as safe as it is now. You might argue that we are not really virus-free but you have to admit that there is no Bubonic plague waiting for us at the corner. That is a big deal.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

There many kinds of biological microscopes in Toronto used in the study of crimes and viruses. Examples are the stereo microscope toronto and the polarized light microscopes in toronto. If you want to know more about them, visit www.CanScope.ca.

Looking at the world through your naked eyes is a treat in itself. However, looking at the life and its creations and creatures through a compound microscope is a whole different ballgame mainly because you start to gain an appreciation for life’s intricacies and subtleties in more ways than one.

As such, before splurging on something as important as a compound microscope, be sure that you factor in these compound considerations that go into buying it. These factors ought to make certain things clearer to your mind’s eye much as a microscope makes things clearer to your naked eye.

Parts

Plastic parts might be cheaper and colorful than metal parts in a microscope, yes, but you must opt for durability and quality more than beauty and quantity. As such, always choose microscopes that are made of mostly metal parts.

You will get more mileage from a metal microscope, not to mention that it ought to retain its basic beauty even after years of use. Plus, it does look more professional sitting atop your home lab desk than a toy plastic microscope!

Also, do opt for all-glass lenses. Although there are toy microscopes that promise magnifications of up to 600 times, their lenses simply will not allow for said power.

Power

A compound microscope usually comes in two basic types: low power and high power. Each type has its applications although the high power microscope is preferred for most laboratory activities.

The low power microscope magnifies visible specimens from 10X to 80X their normal sizes. Think of things like grains of sand, coins, fabric, small insects and leaves, which a budding scientist will be interested in exploring in minutiae.

The high power microscope, on the other hand, allows for magnification of 100X-1000X of invisible objects like blood cells, microorganisms and bacteria. This compound microscope, of course, requires proper training and handling.

Of course, if the microscope is intended for children, a low power type ought to suffice since it does not require elaborate specimen preparation and complex operation. When the children gets older and still have need of a microscope, then it is logical to purchase the high power type.

Price

Now, price is the last consideration because you ought to be willing to pay for a quality microscope. You don’t have to worry too much about the price though as you can purchase a good microscope for as little as $100!

If you do settle for a cheaper microscope, be sure that it fits your needs perfectly. After all, you don’t want to shell out money for a compound microscope that will not prove itself worthy of its price, no matter how small it may be. Don’t compound your money woes with virtually useless equipment, in other words.

When all these factors are considered in your purchase of the perfect compound microscope, you will discover that life, indeed, can be good despite the nitty-gritty details that we might not want to see. Think of the additional cost but, hey, when it comes to education for the whole family, nothing should be too expensive!

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

Visit CanScope.ca for your microscope needs. Choose from a fluorescent microscope, a trinocular microscope and a compound microscope in Toronto today!

Welcome the Digital Age through a digital microscope! With its eight benefits to be enjoyed, all other microscope will look small in comparison, pun intended.

Integrated Illumination

With optical microscopes, the separate illumination makes for a more complicated setup and lesser precision in reproducing the same image. Keep in mind that a small change in illumination makes for a substantial change in the image seen through the microscope.

Not so with the digital microscope! Its integrated illumination means that preliminary setup procedures are virtually eliminated. Plus, you can reproduce the same image over and over again precisely because the illumination basically remains the same.

No Target Disassembly Required

To make setup easier, you don’t have to disassemble – cut up, chop down, process – the target since it can be studied as is, thanks to the portable lens of the microscope. Basically, it’s a point-and-magnify process where you just point the lens towards the target and then magnify it according to your needs. As such, you can make quick analysis of the target!

Finer Depth of Field

Of course, optical microscopes can provide magnifications of 1000 times. However, the depth of field suffers in comparison to a digital microscope by at least 20 times! If you want finer details of the target, you just need to adjust the focus and voila! You have a clearer and deeper picture of the target.

Depth Composition and 3D Display

In addition to depth of field, you are also provided with sharper images of targets. This allows for 3D projections that represent the target conditions at the minutest detail, which is not often possible with an optical microscope limited to 2D images. Think of the detailed studies possible of the subtleties of the target!

Zoom Lens Feature

Unlike an optical microscope with its knobs to increase magnification, a digital microscope has a zoom lens feature that allows for quick and easy magnification. You don’t have to lose sight of the target while searching for the optimal magnification at which you can study it in detail.

All-Angle Study

There are times when you simply must view the target at all angles without losing focus. In digital equipment like the microscope, this is made possible through the 360-degree rotational capabilities of the digital microscope’s camera. Other features like the multi-viewer system and the origin check function, if it’s available, also provide for said versatility. Easy Share in Real Time

In an optical microscope, everybody has to take turns peering at the eyepiece just to get a similar view of the target, which is time-consuming, to say the least. With the digital type, the image of the target can be projected on a bigger screen and, hence, many people can see the same image at once. This is a great tool in a class setting.

Easy Save

Unlike an optical microscope where the process of saving the images can be complex – from microscope to media to computer – its digital counterpart allows for direct saving on its onboard hard disk drive. And the best thing is that you can organize the images directly on the microscope!

So, with all these benefits of a digital microscope, isn’t it about time that you get one fro yourself?

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

Visit CanScope.ca for your microscope needs. All of their microscopes, from the student’s microscopes , to the research microscope to the digital microscope in Toronto are a joy to own. Buy now!

Surely, you’ve seen a microscope. You’ve had that in your elementary Science class. But did you know that there are a lot of types of microscopes on sale today?

What you’ve probably seen is one of those student’s microscopes. It is a low power optical microscope that has been marketed specifically for non-scientists – that is, to be used by students in primary and secondary school.

As mentioned, the student microscope is an optical microscope – the type that uses a system of lenses and visible light in seeing through images. This is the oldest and the simplest kind of microscope in that this still uses eye-pieces for an observer to have a glimpse of the magnified images.

On the other hand, there’s the digital microscope. It the more modern type, and more often, it does not use eye-pieces. In lieu of the eye-piece, it uses a camera and its output is a digital image projected in a computer monitor.

Using a Digital Microscope

So, how do you use a digital microscope then given that you cannot look through an eye-piece to observe a sample? Simple, think robots.

If you want to clearly see the micro-printing in a dollar bill, for example, just place the bill right below the camera of your digital microscope. The images will then be projected in your computer monitor.

But before you discover the secrets of the dollar bill, you must first install the software of your digital microscope into your computer. Your microscope package should include an installation CD, otherwise, you might be getting a fraudulent microscope.

After you’ve successfully done this, connect your digital microscope and your computer using USB cables. Find the appropriate port. You don’t have to be a computer engineer to know this. The secret to this technical task is in finding the port that fits with your cable. If it does not fit, it is not supposed to be plugged there.

When you’ve connected the correct cables and you see that such a connection is working (i.e. when you move your camera, the image on the monitor also changes), you can now get your dollar bill for scrutiny.

Adjust some knobs in your precious digital microscope until the image in your monitor becomes clear. After which, you can now start doing your digital scrutiny of the dollar bill. You can even save a captured image and do some work on it – label it, make some notes about it, or put a comment on it.

Indeed, by using a digital microscope, you are finding better answers to your questions about the world around you. You are discovering more things.

Gone are the days when you have to prick your finger, get a sample of your own blood, put it in a microscope slide and use a student microscope to observe the discs and color of your blood. Today, you have other kinds such as the digital microscope, the research microscope, and an improved version of the compound microscope.

Science indeed has transformed itself to provide us with better answers. It has even made its gadgets better to provide you with the needed tools to satisfy a more curious you.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

On an important research? Surely you need a digital microscope in Toronto or a research microscope in Toronto for that. Visit CanScope.ca to learn more about these lab instruments and to find wonderful picks of student’s microscopes.

In 1953, the world recognized the scientific genius that is the phase contrast microscope. Forget high useful – it wasn’t just useful, it was crucial for actual live observations of intra-cellular processes like cell division.

Medical and biological sciences research are now focused on the real time, real life observation of living organisms to analyze its components and understand life better than we already do. Specifically designed for live specimens, this type of microscope enables observation of virtually invisible occurrences within a cell.

Obviously more advanced than the typical light microscope, this instrument uses the various refractive abilities of different objects to heighten the contrast between colorless and transparent structures. Under this powerful type of microscopy, specimens remain alive as they do not need to be stained – colored or dyed – to distinguish characteristics.

Light Waves and Visible Contrasts

Light waves peak and valley in regular intervals. The moment they line up, they’re said to be in phase; otherwise they’re said to be out of phase. This basic understanding of light waves is the key to how a phase contrast microscope works — it influences the optical path of light through transparent or colorless objects under observation.

Light waves passing through transparent portions of the specimen is slower then the uninfluenced light. To cause a difference in brightness, a transparent phase-plate mounted on the microscope increases the phase to half a wavelength, making the transparent object outshine its surroundings. This unique feature of phase contrast microscope makes it an indispensable tool in medical and biological observations of living cells.

How It Works

A phase contrast microscope makes use of two light sources — one under your specimen and another that is reflected off your specimen. Now, light passes through any transparent object but gets reflected off the surface of a solid, colorless object. When these light waves condense on a lens placed just above your specimen, it is easy to see if the light waves are in or out of their phase. This phase condenser lens on this type of microscope is analogous to the fluorescent filters in fluorescence microscopes; both make light differentiation possible.

Advances in Biomedical Microscopy Technologies

The latest in biomedical microscopy is the introduction of infinity-corrected phase contrast microscopes. Over the last decades, the largest manufacturers of research and/or professional grade microscopes have introduced this new type of optical system into various microscopy modules. This technology places another lens between the objective and the eyepiece and sets the object image to infinity. This correction makes it possible to introduce auxiliary components in the microscope.

This integrated capability makes imaging a an exciting part of the research. Now, you can capture, store, display — virtually do anything — with images of your specimen. With the flexibility of integrated digital technology, you can capture full color photographs or videos of your specimen and display, store and retrieve them from your computer. These capabilities produce virtually the same images on eyepieces and photo ports, allow you to hook up various types of cameras on to the microscope, which would definitely make training and demonstration more real life.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

Looking for infinity corrected objectives in toronto or phase contrast accessories for microscopes? Whether you need that, a microscope filter, or something else, Canscope.ca has something for you. Check them out!