For numerous years, Bruker has been a pioneer in the design and production of magnet and cryogenic systems. Their commitment and ingenuity have established them as the foremost global manufacturer of superconducting magnets for nuclear magnetic resonance (NMR). Among their state-of-the-art offerings is the Ascend series of magnets, which seamlessly integrates a range of proprietary technologies to deliver exceptional performance and cost-effectiveness.
The Ascend range of superconducting magnets encompasses a wide spectrum, boasting a groundbreaking 1.2 GHz capability. This remarkable achievement is made possible by advanced superconductor technology, allowing for the creation of smaller magnet coils, resulting in a reduction in both the physical size and weight of the magnets.
In addition to its impressive capabilities, the Ascend magnet design offers exceptional stability and shielding. With the integration of External Disturbance Suppression (EDS), it provides up to 99% screening efficiency against external magnetic field disturbances. Furthermore, its unique jointing technology ensures the lowest drift rates, ensuring outstanding field stability.
The exceptional features of the Ascend series extend beyond its compact size. The magnets are designed to work seamlessly with Bruker’s refrigeration equipment, automation technologies, room temperature shim systems, and NMR probes, making them suitable for a wide range of applications in materials research, small molecule, and structural biology.
Among Bruker’s latest innovations is the Ascend Evo 1.0 GHz NMR Magnet. This compact system significantly reduces its footprint, weight, and ceiling height requirements, along with a dramatic three-fold reduction in liquid helium consumption. With such a groundbreaking design, more laboratories can now access this advanced magnet technology at reduced costs.
One of the most remarkable aspects of the Ascend magnets is their impact on operational cost savings, particularly in terms of helium consumption. The reduction in helium consumption significantly contributes to lowering operational costs, thereby making advanced magnet technology more accessible.
In addition to fostering cost efficiency, the Ascend magnets have proven to be invaluable in various applications, from characterizing new oncology drugs and assessing anti-malarial efficacy to finding potential vaccine targets for major infectious diseases such as HIV. These revolutionary magnets have broadened the horizons of research in various fields and have been instrumental in advancing cutting-edge scientific discoveries.
Furthermore, in a concerted effort towards sustainability, Bruker has introduced the HelioSmart Recovery system. This system enables the collection and reuse of helium boil-off from NMR magnets, contributing to a more sustainable and environmentally conscious operation. By safeguarding this precious resource and minimizing expenses, the HelioSmart Recovery system exemplifies Bruker’s commitment to responsible and efficient scientific research.
In conclusion, the Ascend line of magnets from Bruker epitomizes the pinnacle of advanced magnet technology, redefining the possibilities of NMR applications and scientific research. With its unrivalled performance, cost efficiency, and sustainability, it stands as a testament to Bruker’s unwavering dedication to shaping the future of scientific innovation.
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