A digital stereoscopic microscope has been one of the most valuable tools among other microscopes. Its usefulness and versatility is very good for anyone who is studying or working in any industry that requires the aid of a microscope. This is particularly helpful for the inspection of everyday objects in an interesting yet comprehensible detail. There can also be a variety of digital stereoscopic microscopes which cater the specific needs of users ranging from primary level students to professional workers working in different fields of employment. The more advanced type of this microscope offers the most magnificent optical performance and consistent mechanical function. For more information, please visit http://www.digitalstereoscopicmicroscope.com/.

Features of a digital stereoscopic microscope
Generally, this microscope offers a lot of features that may range from one style to another. Moreover, each digital stereoscopic microscope allows anyone to see a live display of the specimen currently examined on a screen therefore giving the user more control over the microscope and a vivid image of the specimen. Its other features also include:

• A powerful halogen illumination

• Eyepieces, stage clips and slip clutch are securely locked to keep from any distractions over the user’s focus

• Versatile yet made of robust metallic materials

• Has an excellent optical performance compared to other simple microscopes

• Its boom arm is adjustable perfect for viewing at any angle

• Its heavy base is ideal for stability

• Has varied magnifications to supply the user with the utmost level of magnification he/she desires

• It also has a dual-illumination structure that comprises fluorescent substage lighting and halogen top-lighting

Introduction to 3d imaging microscopy

While students may enjoy the top quality of a digital stereo microscope, most professional researchers may pose a few difficulties regarding the use of this kind of scopes. Their line of work requires genuine and accurate data being gathered by a set of high-tech stuff including a microscope. Most microscopes have limitations or may not apply to all fields of work. The application of traditional microscopy has a few restrictions which affects a number of people’s professions. However, to correct all the past mistakes of the traditional microscopes and to add a few more features that may aid researchers in handling their research, a new technique has been developed which aims to fulfill the needs of most researchers and scientists. This feature allows professionals to view specimens at a very high resolution in 3D. The use of this technique is commonly known as 3d imaging microscopy.

It was first developed by professor Micheal Feld and his fellow team members. He and his team were able to produce images by examining how a cell’s different parts refract light, and they merged those images from the different angles to generate three-dimensional models for real. Few of the microscopes today are armed with this type of stuff which are already been used by some professionals. Soon, it would be very possible for universities and colleges to order microscopes which are able to provide 3d images.

Common applications of 3d imaging microscopy

A three-dimensional imaging microscopy’s applications are quite extensive. The most common applications include:
• tissue engineering
• bio-technology
• biochemistry, botany
• brain mapping
• cell biology
• botany
• autoradiology
• computer analysis
• dentistry
• orthopedics
• Pap smears
• pathology
• paleontology
• developmental biology
• forensics
• fluid inclusions
• geology and micro fossils
• immunolabeling
• parisitology
• physiology
• plant biology
• fracture analysis
• micromanipulation

Reason why 3d is better than 2d

Now that a three-dimensional imaging microscope has emerged, most two-dimensional microscopes have been branded as the second-rate microscopes or the traditional microscopes. Although these two dimensional microscopes are still reliable tools with high power resolutions, three-dimensional microscopes are just way better in generating images which are almost the same as the original specimens. With the two-dimensional microscope’s ability to produce a flat image on the specimen, a three-dimensional microscope gives more vivid pictures thereby giving the users with more precise information on the specimen. Two-dimensional images tend to alter some of the specimen’s real illustration resulting to a less reliable information.

Importance of the z-axis in a 3d imaging microscope

Methods such as confocal and deconvolution have been applied to a three-dimensional imaging microscope. A z-axis provides users with ease and comfort since it doesn’t necessarily have to require the use of computer or the need to generate serial stacks. With the width of a specimen being provided by the z-axis, the user receives additional information on the interrelationships among structures.