Detail publikace

Analysis of gas flow in a secondary electron scintillation detector for ESEM with a new system of pressure limiting apertures.

Originální název

Analysis of gas flow in a secondary electron scintillation detector for ESEM with a new system of pressure limiting apertures.

Anglický název

Analysis of gas flow in a secondary electron scintillation detector for ESEM with a new system of pressure limiting apertures.

Jazyk

en

Originální abstrakt

Environmental scanning electron microscopes offer wide possibilities for the exploration of various types of specimens, especially non-conductive and wet specimens containing different material phases. In this article the results of gas-pumping simulations are analyzed for the novel design of pressure limiting apertures in a secondary electron scintillation detector with usage of SolidWorks and Ansys systems.

Anglický abstrakt

Environmental scanning electron microscopes offer wide possibilities for the exploration of various types of specimens, especially non-conductive and wet specimens containing different material phases. In this article the results of gas-pumping simulations are analyzed for the novel design of pressure limiting apertures in a secondary electron scintillation detector with usage of SolidWorks and Ansys systems.

BibTex


@article{BUT94515,
  author="Jiří {Maxa} and Vilém {Neděla} and Josef {Jirák} and Petr {Vyroubal} and Kristýna {Lepltová}",
  title="Analysis of gas flow in a secondary electron scintillation detector for ESEM with a new system of pressure limiting apertures.",
  annote="Environmental scanning electron microscopes offer wide possibilities for the exploration
of various types of specimens, especially non-conductive and wet specimens containing
different material phases. In this article the results of gas-pumping simulations are
analyzed for the novel design of pressure limiting apertures in a secondary electron
scintillation detector with usage of SolidWorks and Ansys systems.",
  address="University of Defence",
  chapter="94515",
  institution="University of Defence",
  number="2",
  volume="7",
  year="2012",
  month="december",
  pages="39--44",
  publisher="University of Defence",
  type="journal article - other"
}