This paper aims at applying advanced transmission electron microscopy (TEM) to functional materials, such as ultra-soft magnetic films for high-frequency inductors, to reveal the structure-property relationship. The ultimate goal is to delineate a more quantitative way to obtain information of the magnetic induction and local magnetization. Nano-crystalline Fe-Zr-N films have been prepared by DC magnetron reactive sputtering with a thickness between 50 and 500 nm. Conventional TEM and selected area diffraction (SAD), reveal crystallites of sizes ranging between 2 and 30 nm. The films showed a granular or hillock type of roughness with an rms amplitude of 5 nm. In particular this paper concentrates on an analysis of phase maps in electron ho...
Structural characterization is essential for the understanding of the magnetic properties of thin fi...
A detailed knowledge of the micromagnetic structure of thin films is essential for our understanding...
This paper concentrates on a detailed analysis of Lorentz transmission electron microscopy (LTEM) ob...
This paper aims at applying advanced transmission electron microscopy (TEM) to functional materials,...
This paper aims at applying advanced transmission electron microscopy (TEM) to functional materials,...
This paper aims at applying advanced transmission electron microscopy (TEM) to functional materials,...
This paper aims at applying advanced transmission electron microscopy (TEM) to functional materials,...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
Structural characterization is essential for the understanding of the magnetic properties of thin fi...
Structural characterization is essential for the understanding of the magnetic properties of thin fi...
Structural characterization is essential for the understanding of the magnetic properties of thin fi...
A detailed knowledge of the micromagnetic structure of thin films is essential for our understanding...
This paper concentrates on a detailed analysis of Lorentz transmission electron microscopy (LTEM) ob...
This paper aims at applying advanced transmission electron microscopy (TEM) to functional materials,...
This paper aims at applying advanced transmission electron microscopy (TEM) to functional materials,...
This paper aims at applying advanced transmission electron microscopy (TEM) to functional materials,...
This paper aims at applying advanced transmission electron microscopy (TEM) to functional materials,...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
As a tribute to the scientific work of Professor Gareth Thomas in the field of structure-property re...
Structural characterization is essential for the understanding of the magnetic properties of thin fi...
Structural characterization is essential for the understanding of the magnetic properties of thin fi...
Structural characterization is essential for the understanding of the magnetic properties of thin fi...
A detailed knowledge of the micromagnetic structure of thin films is essential for our understanding...
This paper concentrates on a detailed analysis of Lorentz transmission electron microscopy (LTEM) ob...