Department
Physics
Major
Chemistry
Research Advisor
Kim, Hyunsoo
Advisor's Department
Physics
Funding Source
Faculty Startup
Abstract
Topological materials can serve as promising platforms for next-generation technology. Magnetism in such systems is often a consequence of emergent quantum phenomena, and the traditional framework is insufficient to fully describe their magnetic properties. In this project, we will perform precision magnetic measurements utilizing the Colpitts self-oscillator to determine the temperature- and field-dependent AC magnetic susceptibility in the topological magnetic materials. The collective knowledge learned from this proposed research would shed light on the understanding of exotic magnetism in topological materials, potentially leading to new physics of magnetism.
Biography
The student involved in this project is an undergraduate in their second year (a junior-by-credit). Her major is chemistry, and she is conducting this project with Hyunsoo Kim of the physics department.
Research Category
Sciences
Presentation Type
Poster Presentation
Document Type
Poster
Location
Innovation Forum - 1st Floor Innovation Lab
Presentation Date
10 April 2024, 9:00 am - 12:00 pm
Development of Colpitts Self Oscillator for Measurement of Magnetic and Superconducting Properties
Innovation Forum - 1st Floor Innovation Lab
Topological materials can serve as promising platforms for next-generation technology. Magnetism in such systems is often a consequence of emergent quantum phenomena, and the traditional framework is insufficient to fully describe their magnetic properties. In this project, we will perform precision magnetic measurements utilizing the Colpitts self-oscillator to determine the temperature- and field-dependent AC magnetic susceptibility in the topological magnetic materials. The collective knowledge learned from this proposed research would shed light on the understanding of exotic magnetism in topological materials, potentially leading to new physics of magnetism.
