When pinpoint accuracy and precision are key to the projects you're working on, you need to know that you have equipment you can rely on. That's where piezo scanning and nanopositioning technology becomes essential. If you're not sure what piezo scanning and nanopositioning involve, it's the technology that allows for the movement of sensors and lasers without creeping and misdirection.
Piezo scanning and nanopositioning technology has a wide variety of uses within the fields medicine, dentistry, and computer technology. Here are processes where nanopositioning and peizo scanning are crucial.
If you know someone who's had microscopic surgery, you know someone who's benefited from nanopositioning and piezo scanning. Microscopic surgery requires precision down to the very last detail. Through this type of technology, the lasers can be used to shape the cornea and remove the damaged portions. Nanopositioning and piezo scanning prevent damage to the delicate tissue and nerves located inside the eye. Not only that, but the technology also ensure a speedier surgical technique, which reduces stress and trauma to the eye.
When it comes to 3D technology, object tracking is crucial. Without the proper use of technology, object speed can drag. That's where nanopositioning and piezo scanning come into play. This type of technology allows for precision optical tracking. To complete the process, two objects are equipped with optical tracking devices.
During virtual reality play, or VR, the player wears a VR mask that's equipped with one portion of the tracking device. A pointer or game controller is equipped with another tracker. Nanopositioning and piezo scanning ensure that the eyes and the controller will move in unison through the VR world. The next time you're playing a VR game, you'll know why you're able to move so effortlessly through the alternate world.
In nature, when separate ripples of water converge, it's called interference. For instance, you drop pebbles into a pond in two nearby locations. You watch as the circles of ripples expand until the converge onto each other. When the two circles meet and join, you have interference. In science, the same effect can be created in light using nanopositioning and piezo scanning. This happens when two separate beams of light are pointed towards each other. Once they meet, they converge to create interference, which then creates one unique beam of light.
In medical research, it's often necessary to track cell activity. That can be difficult, given the size of living cells. Nanopositioning and piezo scanners allows for a process called cell tracking. Through this technology, cells are color-coded, which allows for long-term tracking. This technology allows for cell changes to be monitored as they occur.Share
22 January 2018
After years of struggling with my computer and printer, I realized that I really didn't know what I was doing. I was tired of dealing with technology problems, so I started focusing on learning more and more about computers, tablets, printers, and networking. It was a long road, but after spending a significant amount of time reading about how things worked, I finally feel competent when it comes to technology. I wanted to make a blog especially for other people who feel challenged by technology, so check out this blog. I know that this information can help you because it has helped me so much.