Add to ORKGAn electron microscope has been optimised for imaging magnetic materials. Using a quantitative imaging technique the in-situ magnetising capability of the instrument is demonstrated with results obtained from permalloy thin film elements. The technique is generally applicable to any magnetic thin film material
Magneto-optical imaging with an indicator film is used for investigating the magnetic pattern in fer...
This thesis begins with an overview of the phenomenon of ferromagnetism and the theory of magnetic d...
Off-axis electron holography is a powerful technique that involves the formation of an interference ...
Using a novel electron microscope which has been optimised for the study of magnetic materials a new...
A detailed knowledge of the micromagnetic structure of thin films is essential for our understanding...
This paper presents an investigation of magnetization configuration evolution during in-situ magneti...
International audienceThis paper presents an investigation of magnetization configuration evolution ...
A novel transmission electron microscope optimised for the study of magnetic material is described. ...
The magnetic domain configuration of a system reveals a wealth of information about the fundamental ...
The magnetic behavior of lithographically defined thin film elements of permalloy imaged by Lorentz ...
Following a brief description of the deficiencies of a standard electron microscope for the study of...
Images of a thin film permalloy element taken with Lorentz and magnetic force microscopies are compa...
Abstract We report on advanced in-situ magneto-transport measurements in a transmission electron mic...
Atomic-resolution electron microscopes utilize high-power magnetic lenses to produce magnified image...
The advent of aberration corrected transmission electron microscopy has led to considerable improvem...
Magneto-optical imaging with an indicator film is used for investigating the magnetic pattern in fer...
This thesis begins with an overview of the phenomenon of ferromagnetism and the theory of magnetic d...
Off-axis electron holography is a powerful technique that involves the formation of an interference ...
Using a novel electron microscope which has been optimised for the study of magnetic materials a new...
A detailed knowledge of the micromagnetic structure of thin films is essential for our understanding...
This paper presents an investigation of magnetization configuration evolution during in-situ magneti...
International audienceThis paper presents an investigation of magnetization configuration evolution ...
A novel transmission electron microscope optimised for the study of magnetic material is described. ...
The magnetic domain configuration of a system reveals a wealth of information about the fundamental ...
The magnetic behavior of lithographically defined thin film elements of permalloy imaged by Lorentz ...
Following a brief description of the deficiencies of a standard electron microscope for the study of...
Images of a thin film permalloy element taken with Lorentz and magnetic force microscopies are compa...
Abstract We report on advanced in-situ magneto-transport measurements in a transmission electron mic...
Atomic-resolution electron microscopes utilize high-power magnetic lenses to produce magnified image...
The advent of aberration corrected transmission electron microscopy has led to considerable improvem...
Magneto-optical imaging with an indicator film is used for investigating the magnetic pattern in fer...
This thesis begins with an overview of the phenomenon of ferromagnetism and the theory of magnetic d...
Off-axis electron holography is a powerful technique that involves the formation of an interference ...