![]() Multi-messenger Autopsies of Stellar Death The synthesis techniques, properties, and process optimization will be discussed that can impact the direct applications of these aforementioned materials. One interesting class of multiferroics is magnetoelectric materials, which concurrently have some form of magnetic and ferroelectric order parameters. Multiferroic materials with the coexistence of at least two ferroic order parameters have the potential for such multifunctional devices. Current trends toward device miniaturization have led to an increased interest in multifunctionality, multifunctional devices, and thin-film microelectronics where a single device component can do multiple tasks simultaneously. The entire class of ferroic materials has found extensive applications in consumer electronics, a variety of sensors, memory devices, health care, and military applications. Four primary ferroic materials: ferroelectric, ferromagnetic, ferroelastic, and ferrotoroidic, are characterized by a wealth of intriguing physical properties. Functional materials, such as ferroic materials have been grouped by the driving field that aligns their ordering parameters. In this talk, some of the basic properties of ferroics and multiferroics, and their applications in many devices will be discussed. Menka Jain, Department of Physics, University of Connecticut ![]()
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