The Radical Transport in the Narrow-Gap-Reactive-Ion Etcher in SF6 by the Relaxation Continuum Model

Nobuhiko Nakano; Zoran Lj Petrović; Toshiaki Makabe

doi:10.1143/JJAP.33.2223

The Radical Transport in the Narrow-Gap-Reactive-Ion Etcher in SF₆ by the Relaxation Continuum Model

Nobuhiko Nakano, Zoran Lj Petrović, Toshiaki Makabe

Research output: Contribution to journal › Article › peer-review

27 Citations (Scopus)

Abstract

We have established a selfconsistent modeling of a narrow-gap reactive ion etcher (N-gap-RIE) with parallel-plate geometry in SF₆. Using the discharge structure of the relaxation continuum model, we have numerically predicted the radical transport to the surface of N-gap-RIE in SF₆ under two different surface reactions. The spatiotemporal profiles of radicals and neutrals are demonstrated for a long time scale (0–1 s) at between 0.05 Torr and 1.0 Torr at 13.56 MHz. The estimated etch rate of Si wafer with F radicals agrees reasonably well with the previous experimental value obtained under a low-power condition. It is stressed from the present result that the ion-molecule reactions for the generation of F radicals as well as the electron impact dissociation of SF₆ are of great importance.

Original language	English
Pages (from-to)	2223
Number of pages	1
Journal	Japanese journal of applied physics
Volume	33
Issue number	4S
DOIs	https://doi.org/10.1143/JJAP.33.2223
Publication status	Published - 1994 Apr
Externally published	Yes

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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abstract = "We have established a selfconsistent modeling of a narrow-gap reactive ion etcher (N-gap-RIE) with parallel-plate geometry in SF6. Using the discharge structure of the relaxation continuum model, we have numerically predicted the radical transport to the surface of N-gap-RIE in SF6 under two different surface reactions. The spatiotemporal profiles of radicals and neutrals are demonstrated for a long time scale (0–1 s) at between 0.05 Torr and 1.0 Torr at 13.56 MHz. The estimated etch rate of Si wafer with F radicals agrees reasonably well with the previous experimental value obtained under a low-power condition. It is stressed from the present result that the ion-molecule reactions for the generation of F radicals as well as the electron impact dissociation of SF6 are of great importance.",

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AU - Petrović, Zoran Lj

AU - Makabe, Toshiaki

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N2 - We have established a selfconsistent modeling of a narrow-gap reactive ion etcher (N-gap-RIE) with parallel-plate geometry in SF6. Using the discharge structure of the relaxation continuum model, we have numerically predicted the radical transport to the surface of N-gap-RIE in SF6 under two different surface reactions. The spatiotemporal profiles of radicals and neutrals are demonstrated for a long time scale (0–1 s) at between 0.05 Torr and 1.0 Torr at 13.56 MHz. The estimated etch rate of Si wafer with F radicals agrees reasonably well with the previous experimental value obtained under a low-power condition. It is stressed from the present result that the ion-molecule reactions for the generation of F radicals as well as the electron impact dissociation of SF6 are of great importance.

AB - We have established a selfconsistent modeling of a narrow-gap reactive ion etcher (N-gap-RIE) with parallel-plate geometry in SF6. Using the discharge structure of the relaxation continuum model, we have numerically predicted the radical transport to the surface of N-gap-RIE in SF6 under two different surface reactions. The spatiotemporal profiles of radicals and neutrals are demonstrated for a long time scale (0–1 s) at between 0.05 Torr and 1.0 Torr at 13.56 MHz. The estimated etch rate of Si wafer with F radicals agrees reasonably well with the previous experimental value obtained under a low-power condition. It is stressed from the present result that the ion-molecule reactions for the generation of F radicals as well as the electron impact dissociation of SF6 are of great importance.

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The Radical Transport in the Narrow-Gap-Reactive-Ion Etcher in SF₆ by the Relaxation Continuum Model

Abstract

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