Low Temperature Techniques


The first set of Fusions made their way to customer labs this month. The user-driven design simplifies sample wiring with a new modular cold PCB inside an expanded sample chamber. Learn more about the features inside our newest base platform.

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Montana Instruments recently collaborated with the Burch Group at Boston College and the University of Toronto to design, test, and characterize a variable temperature Raman microscope setup utilizing Montana Instruments Cryo-Optic and ATSM technologies. The resulting system makes it possible to probe nano-materials with low thermal conductivities and very weak Raman responses.

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Researchers at the UC Santa Barbara Jayich Lab have integrated a three axis Helmoltz coil superconducting magnet inside the Nanoscale Workstation.

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The Agile Temperature Sample Mount was designed to facilitate rapid temperature changes of the sample while ensuring the highest level of positional stability. It has now been integrated vertically within the Nanoscale Workstation for horizontal beam path measurements.

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Physicists at the Delft University of Technology just made a major breakthrough in the realm of quantum mechanics, conducting an experiment to validate the much debated theory of entanglement, or the idea that actions performed on one particle instantaneously influence the behavior of another, even at opposite ends of the universe.

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This post discusses mounting optics inside the sample space of the Cryostation.

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Making a custom mount for samples in the Montana Instruments Cryostation is common, but it is important to include a couple of best practices when considering building a custom mount.

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Who Needs Cooling?

Posted 23 July, 2012