1/5/2024 0 Comments Mixscope for windows![]() In order to fashion magnetic memories that are compact, scientists need to have a way to manipulate them precisely. In all magnetic materials, manipulating phase transitions around the critical temperature at which they occur can provide the key to being able to flip an information-storing bit between a “1” and a “0”. Scientists can use the magnetic phases to create a new kind of magnetic storage that promises to be faster and more energy-efficient than conventional data storage. The change causes an expansion of the atomic network that is very small - but enough to have significant consequences for the magnetism. In looking at phase transitions in an iron-rhodium compound, the researchers found a way to watch the structure of the compound change between two magnetic configurations. The APS and CNM are DOE Office of Science user facilities. The study used the Hard X-Ray Nanoprobe operated by the Center for Nanoscale Materials ( CNM) at the Advanced Photon Source ( APS) at Argonne. ![]() “This method gives us a precise view of structural changes in our sample that are challenging to see with any other method,” Ahn said. For this work, he collaborated closely with Wen. Ahn is a former graduate student intern at Argonne from the University of Wisconsin-Madison. “We’re able to zoom into a sample in terms of time and space in ways we have never been able to before,” said Youngjun Ahn, the first author of the study. The ability to witness the evolution of material behavior with such precision in time and space has revealed unusual behaviors in certain materials that undergo a phase change, including many magnetic materials. (Image by Haidan Wen/Argonne National Laboratory.) X-ray nanodiffraction maps of the ferromagnetic phase transition. Department of Energy’s ( DOE) Argonne National Laboratory. “A typical video might play at 30 frames per second, so this is approximately a slow-motion video that can resolve dynamics that are extremely fast,” said Haidan Wen, a physicist at the U.S. The scientists made X-ray “photographs” that are spaced less than one-tenth of 1 billionth of a second apart through a technique called nanodiffraction microscopy. In a new study, researchers have for the first time been able to look at a structural phase transition in minute detail on a very fast timescale. “We’re able to zoom into a sample in terms of time and space in ways we have never been able to before.” - Youngjun Ahn, study author ![]() ![]() Scientists plan to use phase transitions to be able to control the electronic, structural or magnetic properties of different materials as they undergo these changes, such as for use in new types of computer memories. Phase transitions - such as those between solids, liquids and gases - occur in all kinds of different substances, and they can happen rapidly or slowly. Anyone who has watched steam billow up from a boiling kettle or seen ice crystals form on a wet window in winter has observed what scientists call a phase transition.
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