Charging regime of PMMA studied by secondary electron emission

M. Boubaya; G. Blaise

doi:10.1051/epjap:2006128

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Applied Physics

Eur. Phys. J. Appl. Phys. 37, 79-86 (2007)
https://doi.org/10.1051/epjap:2006128

Charging regime of PMMA studied by secondary electron emission

M. Boubaya and G. Blaise

Laboratoire de Physique des Solides, Bât. 510, Université Paris XI, 91405 Orsay, France

Corresponding author: blaise@lps.u-psud.fr

Received: 3 May 2005
Revised: 18 May 2006
Accepted: 13 September 2006
Published online: 8 November 2006

Abstract

Foils of Polymethyl methacrylate (PMMA) 2 mm thick were studied by measuring the total Secondary Electron Emission yield $\sigma$ (SEE yield) in a dedicated Scanning Electron Microscope especially equipped to study the fundamental aspects of the charge transport and trapping in insulating materials. The intrinsic SEE yield $\sigma _{0}$ , (yield of the uncharged material) and the charging kinetics were studied under low current density $J=10^{+5 }$ pA/cm². The curve of the primary beam energy variation of $\sigma _{0}$ exhibits a maximum intrinsic yield $\sigma _{\rm 0max}= 2.2$ at 370 ± 20 eV and two crossover energies $E_{I}=84$ ± 20 eV and $E_{II }=1465$ ± 20 eV for which $\sigma _{0} = 1$ . For $\sigma _{0} >$ 1 PMMA is positively charged and negatively for $\sigma _{0} <$ 1. As electron injection is proceeding under the low current density used, the SEE yield varies from $\sigma _{0}$ to the steady value $\sigma _{st}=1$ . This value that expresses the equality between the average number of emitted and injected electrons, characterizes the steady charge regime called “Self-Regulated Regime”. The evolution of $\sigma$ during the injection process is due to the internal field that blocks or enhances the secondary electron emission, according to the positive or negative nature of the trapped charges. A current density effect, characterized by a steady SEE yield slightly higher than unity, $\sigma _{st }=1.03$ , instead of one, is observed at high energy (for example 4000 eV) for a strong current density $J>10^{+6 }$ pA/cm². It is interpreted by a field ionisation (Poole-Frenkel type) that enhances the secondary electron emission.

PACS: 79.20.Hx – Electron impact: secondary emission / 68.37.Hk – Scanning electron microscopy (SEM) (including EBIC) / 61.80.Fe – Electron and positron radiation effects

© EDP Sciences, 2006

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