Reactive etching of platinum-manganese using a pulse-time-modulated chlorine plasma and a H2 plasma post-etch corrosion treatment

Shinya Kumagai; Toshiaki Shiraiwa; Seiji Samukawa

doi:10.1116/1.1738656

Reactive etching of platinum-manganese using a pulse-time-modulated chlorine plasma and a H₂ plasma post-etch corrosion treatment

Shinya Kumagai, Toshiaki Shiraiwa, Seiji Samukawa

Innovative Energy Research Center

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

6 Citations (Scopus)

Abstract

The highly anisotropic and corrosion-less etching of a PtMn thin film using a pulse-time-modulated (TM) chlorine electron-cyclotron-resonance plasma was discussed. The PtMn etching rate was found to considerably increase using TM plasma, when compared with conventional continuous-wave plasma. It was also observed that the formation of etching residues and post-etch corrosion products was reduced by increasing the pulse-off time of the TM plasma. It was thus concluded that the combination of TM chlorine plasma etching and the hydrogen-plasma post-exposure treatment can successfully pattern highly anisotropic vertical etched profiles with sub-micron width and no critical-dimension loss.

Original language	English
Pages (from-to)	1093-1100
Number of pages	8
Journal	Journal of Vacuum Science and Technology A: Vacuum, Surfaces and Films
Volume	22
Issue number	4
DOIs	https://doi.org/10.1116/1.1738656
Publication status	Published - 2004 Jul

ASJC Scopus subject areas

Condensed Matter Physics
Surfaces and Interfaces
Surfaces, Coatings and Films

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abstract = "The highly anisotropic and corrosion-less etching of a PtMn thin film using a pulse-time-modulated (TM) chlorine electron-cyclotron-resonance plasma was discussed. The PtMn etching rate was found to considerably increase using TM plasma, when compared with conventional continuous-wave plasma. It was also observed that the formation of etching residues and post-etch corrosion products was reduced by increasing the pulse-off time of the TM plasma. It was thus concluded that the combination of TM chlorine plasma etching and the hydrogen-plasma post-exposure treatment can successfully pattern highly anisotropic vertical etched profiles with sub-micron width and no critical-dimension loss.",

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N2 - The highly anisotropic and corrosion-less etching of a PtMn thin film using a pulse-time-modulated (TM) chlorine electron-cyclotron-resonance plasma was discussed. The PtMn etching rate was found to considerably increase using TM plasma, when compared with conventional continuous-wave plasma. It was also observed that the formation of etching residues and post-etch corrosion products was reduced by increasing the pulse-off time of the TM plasma. It was thus concluded that the combination of TM chlorine plasma etching and the hydrogen-plasma post-exposure treatment can successfully pattern highly anisotropic vertical etched profiles with sub-micron width and no critical-dimension loss.

AB - The highly anisotropic and corrosion-less etching of a PtMn thin film using a pulse-time-modulated (TM) chlorine electron-cyclotron-resonance plasma was discussed. The PtMn etching rate was found to considerably increase using TM plasma, when compared with conventional continuous-wave plasma. It was also observed that the formation of etching residues and post-etch corrosion products was reduced by increasing the pulse-off time of the TM plasma. It was thus concluded that the combination of TM chlorine plasma etching and the hydrogen-plasma post-exposure treatment can successfully pattern highly anisotropic vertical etched profiles with sub-micron width and no critical-dimension loss.

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Reactive etching of platinum-manganese using a pulse-time-modulated chlorine plasma and a H₂ plasma post-etch corrosion treatment

Abstract

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