"Magnetic Physics"Course Syllabus 《磁性物理学（英文）》课程教学大纲 1. Basic Information Name Magnetic Physics Course Code PHYS3116 Course Category Required course Majors Physics Credit Total Hours36 Tianyi Cai(蔡田怡) Instructors 2021.9 Sheng Ju(唯胜) Date Textbooks Magnetism in Condensed Matter,Stephen Blundell,Oxford University Press,2001 1I.Teaching aim 1)Overall objectives: This course will introduce the fundamental concepts that underly the practical use of magnetic materials. The interesting gnetic effects found in condensed matter systems have two crucial ingredients:first,that atoms should possess magnetic moments and second,that these moments should somehow interact. We will discuss the different types of magnetic materials,and the basic energies that drive their physical behaviors.A particular focus will also be on the dynamic properties of magnetic materials and their interactions with electrical excitations.These concepts will be reinforced via a micromagnetic simulation project,which allows to directly explore the intricate interplay between different magnetic interactions.The course will discuss these magnetic phenomena in the context of different applications,ranging from biomedical applications to current information technologies.At the same time,we will discuss frontiers of magnetis research,which will be reinforced through the literature revie of recently published results. 2)Course objectives: 1.Understand the key concepts of magnetic physics: 2.Know properties and applications to demonstrate the implications of all “Magnetic Physics” Course Syllabus 《磁性物理学（英文）》课程教学大纲 I. Basic Information Name Magnetic Physics Course Code PHYS3116 Course Category Required course Majors Physics Credit 2 Total Hours 36 Instructors Tianyi Cai(蔡田怡) Sheng Ju(雎胜) Date 2021.9 Textbooks Magnetism in Condensed Matter, Stephen Blundell, Oxford University Press, 2001 II. Teaching aim 1) Overall objectives: This course will introduce the fundamental concepts that underly the practical use of magnetic materials. The interesting magnetic effects found in condensed matter systems have two crucial ingredients: first, that atoms should possess magnetic moments and second, that these moments should somehow interact. We will discuss the different types of magnetic materials, and the basic energies that drive their physical behaviors. A particular focus will also be on the dynamic properties of magnetic materials and their interactions with electrical excitations. These concepts will be reinforced via a micromagnetic simulation project, which allows to directly explore the intricate interplay between different magnetic interactions. The course will discuss these magnetic phenomena in the context of different applications, ranging from biomedical applications to current information technologies. At the same time, we will discuss frontiers of magnetism research, which will be reinforced through the literature review of recently published results. 2) Course objectives: 1. Understand the key concepts of magnetic physics; 2. Know properties and applications to demonstrate the implications of all