Add to ORKGA redesign of the Hemispherical Grid Retarding Field Analyzer is discussed in relationship to multilayer charging models. In order to accurately extend single layer charging models to dynamic multilayer scenarios, precise measurements of electron emission as well as the net surface potential must be made. By learning from the previous design and thinking of future applications, the new instrument will greatly enhance our ability to precisely measure materials undergoing energetic electron bombardment
The self-potential of a high current ion beam may be fairly balanced by a secondary plasma with plas...
The secondary electron yield is a critical process in establishing the charge balance in spacecraft ...
We have designed and built a hemispherical retarding field energy analyzer in order to facilitate ch...
A redesign of the Hemispherical Grid Retarding Field Analyzer is discussed in relationship to multil...
The charging of multilayer materials as related to the charging of spacecraft is one of the primary ...
Secondary Electron Yield is a key parameter in spacecraft charging. In order to develop a robust mod...
Secondary electron emission is an important physical mechanism in the problem of spacecraft charging...
Spacecraft charging due to the natural plasma environment found in all orbits is known to produce ma...
As energetic electrons interact with the surface of materials, they impart energy throughout the mat...
New instrumentation has been developed for in situ measurements of the electron beam- induced surfac...
Secondary electron emission is a critical contributor to the current balance in spacecraft charging....
Accurate modeling of spacecraft charging is essential to mitigate well‐known and all‐too‐common dele...
New instrumentation has been developed for non-contact, in vacuo measurements of the electron beam-i...
Charging of thin-film, multilayer dielectric materials subject to electron bombardment was found to ...
Secondary electron (SE) emission from spacecraft surfaces as a result of energetic electron bombardm...
The self-potential of a high current ion beam may be fairly balanced by a secondary plasma with plas...
The secondary electron yield is a critical process in establishing the charge balance in spacecraft ...
We have designed and built a hemispherical retarding field energy analyzer in order to facilitate ch...
A redesign of the Hemispherical Grid Retarding Field Analyzer is discussed in relationship to multil...
The charging of multilayer materials as related to the charging of spacecraft is one of the primary ...
Secondary Electron Yield is a key parameter in spacecraft charging. In order to develop a robust mod...
Secondary electron emission is an important physical mechanism in the problem of spacecraft charging...
Spacecraft charging due to the natural plasma environment found in all orbits is known to produce ma...
As energetic electrons interact with the surface of materials, they impart energy throughout the mat...
New instrumentation has been developed for in situ measurements of the electron beam- induced surfac...
Secondary electron emission is a critical contributor to the current balance in spacecraft charging....
Accurate modeling of spacecraft charging is essential to mitigate well‐known and all‐too‐common dele...
New instrumentation has been developed for non-contact, in vacuo measurements of the electron beam-i...
Charging of thin-film, multilayer dielectric materials subject to electron bombardment was found to ...
Secondary electron (SE) emission from spacecraft surfaces as a result of energetic electron bombardm...
The self-potential of a high current ion beam may be fairly balanced by a secondary plasma with plas...
The secondary electron yield is a critical process in establishing the charge balance in spacecraft ...
We have designed and built a hemispherical retarding field energy analyzer in order to facilitate ch...