Add to ORKGThis paper is intended as an introduction to the field of proton microprobe analysis with special emphasis on applications in biological sciences. It is mainly intended for users of electron microscopes equipped with microprobes or other analytical equipment. The basic principles of Particle Induced X-ray Emission analysis are discussed as well as the instrumental requirements for the proton microprobe. The analytical characteristics including quantification procedures are compared with those of the electron microprobe and a review is given of various analytical applications of the proton microprobe within biology and medicine
Although transmission X-ray microanalysis of biological material has traditionally been carried out ...
Electron microprobe and proton microprobe X-ray analysis can be used in several areas of dermatologi...
This paper is concerned with the evaluation of the use of synchrotron/radiation induced x-ray fluore...
This paper is intended as an introduction to the field of proton microprobe analysis with special em...
Apart from studies on aerosols, the majority of applications of proton induced X-ray emission (PIXE)...
The principles of proton microprobe analysis are outlined and compared to electron beam analysis. Sa...
The Scanning proton microprobe uses a focused beam of MeV protons to give analytical information by ...
Imaging the morphology of the tissue in vivo and producing the correspondent elemental maps, whether...
Although X-ray microanalysis in the electron microscope is the most common method for microanalysis ...
© 1989 Dr. Garry Lindsay AllanThis thesis concerns both the application and future development of a ...
Proton induced X-ray emission (PIXE) analysis is a comparatively new member of the family of spectro...
An analytical particle-induced X-ray emission (PIXE) procedure for the multielement analysis of biol...
The versatility of the PIXE method with microbeams of protons as a non-destructive, in-situ probe fo...
The capabilities of the equipment for proton induced X-ray emission analysis at the University of Su...
A proton microprobe in combination with proton induced X-ray emission and a X-ray microprobe are use...
Although transmission X-ray microanalysis of biological material has traditionally been carried out ...
Electron microprobe and proton microprobe X-ray analysis can be used in several areas of dermatologi...
This paper is concerned with the evaluation of the use of synchrotron/radiation induced x-ray fluore...
This paper is intended as an introduction to the field of proton microprobe analysis with special em...
Apart from studies on aerosols, the majority of applications of proton induced X-ray emission (PIXE)...
The principles of proton microprobe analysis are outlined and compared to electron beam analysis. Sa...
The Scanning proton microprobe uses a focused beam of MeV protons to give analytical information by ...
Imaging the morphology of the tissue in vivo and producing the correspondent elemental maps, whether...
Although X-ray microanalysis in the electron microscope is the most common method for microanalysis ...
© 1989 Dr. Garry Lindsay AllanThis thesis concerns both the application and future development of a ...
Proton induced X-ray emission (PIXE) analysis is a comparatively new member of the family of spectro...
An analytical particle-induced X-ray emission (PIXE) procedure for the multielement analysis of biol...
The versatility of the PIXE method with microbeams of protons as a non-destructive, in-situ probe fo...
The capabilities of the equipment for proton induced X-ray emission analysis at the University of Su...
A proton microprobe in combination with proton induced X-ray emission and a X-ray microprobe are use...
Although transmission X-ray microanalysis of biological material has traditionally been carried out ...
Electron microprobe and proton microprobe X-ray analysis can be used in several areas of dermatologi...
This paper is concerned with the evaluation of the use of synchrotron/radiation induced x-ray fluore...