. "Nanoscience means: scanning probe microscopy"@en . . "5" . "no data" . . "Presential"@en . "FALSE" . . "Nanomagnetism"@en . . "6" . "Advanced course in solid state physics. This course aims at giving the students the basic\ningredients to understand the contempory research going on in the field of magnetism and\nmagnetic nanostrures. Emphasis is laid on research related to activities in Gent.1 Introduction: Modern magnetism: what, why and how\n2 Basic concepts of magnetism: magnetic ordering and phase transitions – exchange\ninteraction – magnetic anisotropies - magnetostatics – magnetic microstructure: domains\nand domainwalls – magnetization dynamics: Landau-Lifshitz-Gilbert equation\n3 Experimental and computational techniques: Interaction with Light - X-rays – Neutrons,\nMicromagnetic simulations\n4 Magnetism on the nanoscale: magnetostatics – magnetic inferfaces: exchange bias and\n magnetic multilayers - magnetization dynamics: spin wave modes – spin dependent\n transport (GMR, TMR) - spin transfer torque.\n5 Discussion of research papers\nBasic knowledge of quantum mechanics, material science, solid state physics.\nAcquiring a fundamental knowledge on magnetism and be able to apply it to the field of nanomagnetism.\nUnderstanding the principles of the experimental and computation mehtods used to study magnetic systems.\nHaving an overview of the new concepts and challenges in the contemporary magnetism research." . . "Presential"@en . "FALSE" . . "Nanoscience"@en . . .