Add to ORKGEmployment of the scanning low energy electron microscopy (SLEEM) has been slowly making its way into the field of materials science, hampered not by limitations in the technique but rather by the relative scarcity of these instruments in research institutes and laboratories
Very low energy scanning electron microscopy is introduced as a scanning version of the low energy e...
Paper briefly describes main features of proposed low-energy electron scanning microscope
Main goal of the work is in-situ comparison of signals in slow and Auger electrons in Scanning Elect...
The use of the scanning low energy electron microscopy (SLEEM) has been slowly making its way into t...
The aim of this thesis is to demonstrate the advantages of the scanning low energy electron microsco...
Recent developments in applications of the scanning very low energy electron microscopy in selected ...
Scanning low energy electron microscopes (SLEEMs) have been built at ISI for over 20 years, either b...
Nanomaterials used for the protection against COVID 19 were tested by a special method developed at ...
For more than 25 years, Scanning Low Energy Electron Microscopy (SLEEM) has been\ndeveloped at the I...
Methods for examination of the crystal structure of crystalline materials include the X-Ray, neutron...
A scanning low energy electron microscope (SLEEM) was realized with a cathode lens in which the nega...
The main aspects of the SEM performed in the low energy (below 5 keV) and very low energy (below 50 ...
This work was concerned with the relationship between the reflectivity of very low energy electrons ...
The SEM with various detector arrangements and analytical attachments represents an\nirreplaceable t...
Low energy electron microscopy (LEEM) and spin polarized LEEM (SPLEEM) are two powerful in situ tech...
Very low energy scanning electron microscopy is introduced as a scanning version of the low energy e...
Paper briefly describes main features of proposed low-energy electron scanning microscope
Main goal of the work is in-situ comparison of signals in slow and Auger electrons in Scanning Elect...
The use of the scanning low energy electron microscopy (SLEEM) has been slowly making its way into t...
The aim of this thesis is to demonstrate the advantages of the scanning low energy electron microsco...
Recent developments in applications of the scanning very low energy electron microscopy in selected ...
Scanning low energy electron microscopes (SLEEMs) have been built at ISI for over 20 years, either b...
Nanomaterials used for the protection against COVID 19 were tested by a special method developed at ...
For more than 25 years, Scanning Low Energy Electron Microscopy (SLEEM) has been\ndeveloped at the I...
Methods for examination of the crystal structure of crystalline materials include the X-Ray, neutron...
A scanning low energy electron microscope (SLEEM) was realized with a cathode lens in which the nega...
The main aspects of the SEM performed in the low energy (below 5 keV) and very low energy (below 50 ...
This work was concerned with the relationship between the reflectivity of very low energy electrons ...
The SEM with various detector arrangements and analytical attachments represents an\nirreplaceable t...
Low energy electron microscopy (LEEM) and spin polarized LEEM (SPLEEM) are two powerful in situ tech...
Very low energy scanning electron microscopy is introduced as a scanning version of the low energy e...
Paper briefly describes main features of proposed low-energy electron scanning microscope
Main goal of the work is in-situ comparison of signals in slow and Auger electrons in Scanning Elect...