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Optical Tweezers m-Trap

Introduction：
The m-Trap is the first entry-level optical tweezers instrument specifically developed for high-resolution single-molecule research. Ultra-high force resolution and stability, with incredible throughput, ease of use, and modularity – all at an unprecedented price level.   How does it work? In 2018 Arthur Ashkin won the Nobel Prize in Physics for his discovery that the momentum of light can be used as an incredibly sensitive set of “tweezers”. By shooting a laser through a microscope, he created a highly focused beam of light strong enough to trap and hold in place objects such as plastic beads. These beads can be coated to stick to a variety of biomolecules, such as proteins, cytoskeleton filaments, DNA, or RNA. Furthermore, the tiniest forces applied to these molecules can be measured as well, giving the world access to a tool not only capable of manipulating biomolecules but also capable of detecting what’s happening to them.   How can it be applied to my research? Whether you are aiming to make novel discoveries in the life sciences or develop successful drug candidates, we work on a personal level to find the right solution for you. Browse our extended list of applications to discover how these technologies can benefit your research. Don’t see your specific field represented? Drop us an e-mail to see what we can do!   -Stable and precise sample manipulation Advanced manipulation features that allow you to get the most out of your sample. Fully supported integration and correlation with custom optical layout allowing for 3rd party system integration.   -High throughput experiment workflow Loading your sample and analysing your data in less than 30 minutes.   -Easy and intuitive software package Check how you can completely automate your experiments using our user-centered software workflow.

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Optical Tweezers – Fluorescence & Label-free Microscopy C-Trap G2

Introduction：
The C-Trap® provides the world’s first dynamic single-molecule microscope to allow simultaneous manipulation and visualization of single-molecule interactions in real time. It combines high-resolution optical tweezers, fluorescence, and label-free microscopy, and an advanced microfluidics system in a truly integrated and correlated solution.   How does it work? In 2018 Arthur Ashkin won the Nobel Prize in Physics for his discovery that the momentum of light can be used as an incredibly sensitive set of “tweezers”. By shooting a laser through a microscope, he created a highly focused beam of light strong enough to trap and hold in place objects such as plastic beads. These beads can be coated to stick to a variety of biomolecules, such as proteins, cytoskeleton filaments, DNA, or RNA. Furthermore, the tiniest forces applied to these molecules can be measured as well, giving the world access to a tool not only capable of manipulating biomolecules but also capable of detecting what’s happening to them.   How can it be applied to my research? Whether you are aiming to make novel discoveries in the life sciences or develop successful drug candidates, we work on a personal level to find the right solution for you. Browse our extended list of applications to discover how these technologies can benefit your research.   -Stable and precise sample manipulation Different optical tweezers configurations and advanced manipulation features allow you to get the most out of your sample.   -A wide variety of visualization capabilities Choose and combine from a variety of imaging methods designed specifically to solve the needs of different experimental designs.   -Introducing the new C-Trap products Dymo & Edge With the desire to constantly produce breakthrough discoveries, you need an easy-to-use instrument, fully-optimized for your applications that should bring unprecedented insights with high precision, accuracy, and reliability, in short time. Discover your solutions below!   -High throughput experiment workflow Loading your sample and analysing your data in less than 30 minutes.   -Easy and intuitive software package Check how you can completely automate your experiments using our user-centered software workflow, experience seamless process from data collection to data analysis.

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