The worldwide pursuit of green and sustainable technology solutions has never been more critical than it is today. With the looming threat of climate change and environmental degradation, the need for innovative approaches to reduce our carbon footprints has become paramount. Permanent magnets, these small but mighty components, play a significant role in various eco-friendly technologies that will help drive a more sustainable future. Continue reading →
We try our best to warn customers about the negative effects that come with storing your magnets in extremely hot settings. While overly hot temperatures (more than 176 degrees Fahrenheit for Neodymium magnets) can cause your magnets to lose their magnetic properties, some people believe cold temperatures have the opposite effect. One popular rumor is that cool temperatures can make your magnets even stronger. Is it truly a rumor or is this a fun fact about magnets? Continue reading →
You never know what you may uncover while magnet fishing. Whether you are fishing in the pond in your backyard or a popular body of water, you may pull up something with an incredible story behind it. Recently, a pair of magnet fishermen in the United Kingdom retrieved a cannon that may be up to 600 years old. The catch has military experts and excited fellow fishermen looking for more information. Continue reading →
The ability to control quantum materials with light… It sounds incredible because it is! It also has extremely important technological implications. In recent studies, by utilizing the strong coupling of light and matter in optical cavities, researchers were actually able to change some of the defining features of quantum materials. More specifically, a research group from City College of New York showed that trapping light insight magnetic materials may “dramatically enhance [the magnetic materials] intrinsic properties.” Continue reading →
The thought of robots assisting in daily life seemed like a futuristic concept for quite some time. Over the past few years, however, there have been numerous advancements in robotics that could make this concept a reality. Scientists from MIT are finding success by creating robots that can be controlled by a magnetic field. Soon, these robots may be used to transport your packages, help with medical treatments, assist in navigating small spaces, and more. Continue reading →
Recently, a group of MIT Plasma Science and Fusion Center (PSFC) research scientists figured out how to manipulate or control the anomalous Hall effect and Berry curvature for advanced use in computers, robotics, and sensors. Hang Chi, Yunbo Ou, Jagadeesh Moodera, and co-authors wrote extensively to explore their discovery and share it with the world.
Continue reading →
If you haven’t heard of the James Webb Space Telescope, you are seriously missing out. It is the most powerful space telescope ever built. It lets scientists (and anyone with a phone or computer) see what our universe looked like about a quarter of a billion years ago, 13 billion light-years in the past. Since July 12th, the telescope has been transmitting images of stars, nebulas, planets, galaxies, cosmic dust clouds, you name it! Continue reading →
As concerns and awareness grow regarding the world’s rare-earth element supply, other options are starting to attract interest. One potential alternative involves additive manufacturing or 3D printing magnetic ceramics and alloys that aren’t made with rare earth elements. Continue reading →
Over the past few years, supply chain issues have plagued consumers when it comes to getting everything from groceries to new cars. Now, Europe’s first rare earth magnet manufacturing facility is looking to help with production in hopes of helping people find what they need. Continue reading →
Did you know the modern rare earth permanent magnet was invented at the University of Dayton Research Institute? It all started between 1946 - 1952 when the study of rare earth metals was accelerated by advances in chemical separation techniques (i.e., the Manhattan Project.) Later, in the 1960s, civilian researcher Dr. Karl Strnat and UDRI employee Dr. Alen Ray (serving as a metallurgical consultant) began a study to try and better understand the origin story of magnetic properties. Continue reading →
The worldwide pursuit of green and sustainable technology solutions has never been more critical than it is today. With the looming threat of climate change and environmental degradation, the need for innovative approaches to reduce our carbon footprints has become paramount. Permanent magnets, these small but mighty components, play a significant role in various eco-friendly technologies that will help drive a more sustainable future. Continue reading →
We try our best to warn customers about the negative effects that come with storing your magnets in extremely hot settings. While overly hot temperatures (more than 176 degrees Fahrenheit for Neodymium magnets) can cause your magnets to lose their magnetic properties, some people believe cold temperatures have the opposite effect. One popular rumor is that cool temperatures can make your magnets even stronger. Is it truly a rumor or is this a fun fact about magnets? Continue reading →
You never know what you may uncover while magnet fishing. Whether you are fishing in the pond in your backyard or a popular body of water, you may pull up something with an incredible story behind it. Recently, a pair of magnet fishermen in the United Kingdom retrieved a cannon that may be up to 600 years old. The catch has military experts and excited fellow fishermen looking for more information. Continue reading →
The ability to control quantum materials with light… It sounds incredible because it is! It also has extremely important technological implications. In recent studies, by utilizing the strong coupling of light and matter in optical cavities, researchers were actually able to change some of the defining features of quantum materials. More specifically, a research group from City College of New York showed that trapping light insight magnetic materials may “dramatically enhance [the magnetic materials] intrinsic properties.” Continue reading →
The thought of robots assisting in daily life seemed like a futuristic concept for quite some time. Over the past few years, however, there have been numerous advancements in robotics that could make this concept a reality. Scientists from MIT are finding success by creating robots that can be controlled by a magnetic field. Soon, these robots may be used to transport your packages, help with medical treatments, assist in navigating small spaces, and more. Continue reading →
Recently, a group of MIT Plasma Science and Fusion Center (PSFC) research scientists figured out how to manipulate or control the anomalous Hall effect and Berry curvature for advanced use in computers, robotics, and sensors. Hang Chi, Yunbo Ou, Jagadeesh Moodera, and co-authors wrote extensively to explore their discovery and share it with the world. Continue reading →
If you haven’t heard of the James Webb Space Telescope, you are seriously missing out. It is the most powerful space telescope ever built. It lets scientists (and anyone with a phone or computer) see what our universe looked like about a quarter of a billion years ago, 13 billion light-years in the past. Since July 12th, the telescope has been transmitting images of stars, nebulas, planets, galaxies, cosmic dust clouds, you name it! Continue reading →
