High Current Implant Precision Requirements for Sub-65 nm Logic Devices

As CMOS devices shrink they become increasingly sensitive to variations of ion beam angular properties and beam current density. In sub-65 nm devices beam divergence and beam steering variations at levels commonly seen in high current implanters for Source/Drain Extension (SDE) implants could signif...

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Hauptverfasser:	Erokhin, Yuri, Romig, Terry, Kim, Elshot, Xu, Jiejie, Guo, Baonian, Liu, Jinnig, Shim, Kyu-ha, Nunan, Peter
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creator	Erokhin, Yuri Romig, Terry Kim, Elshot Xu, Jiejie Guo, Baonian Liu, Jinnig Shim, Kyu-ha Nunan, Peter
description	As CMOS devices shrink they become increasingly sensitive to variations of ion beam angular properties and beam current density. In sub-65 nm devices beam divergence and beam steering variations at levels commonly seen in high current implanters for Source/Drain Extension (SDE) implants could significantly shift device characteristics compromising yield and robustness of manufacturing process. In this paper we review the implant precision requirements for Source/Drain Extension (SDE) formation for sub-65nm node devices. TCAD simulation was used to analyze the effects of beam divergence and steering errors for an on-axis (0 deg ) SDE implant on sub-65 nm NMOS HP devices. Effects of energy contamination introduced along with decelerated low energy ions in p-type SDE implants in PMOS devices is also discussed. Response of device electrical characteristics to variation of beam angle properties is quantified and beam angle control requirements for state-of-the-art ultra-low energy implanters formulated.
doi_str_mv	10.1063/1.2401570
format	Conference Proceeding
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In sub-65 nm devices beam divergence and beam steering variations at levels commonly seen in high current implanters for Source/Drain Extension (SDE) implants could significantly shift device characteristics compromising yield and robustness of manufacturing process. In this paper we review the implant precision requirements for Source/Drain Extension (SDE) formation for sub-65nm node devices. TCAD simulation was used to analyze the effects of beam divergence and steering errors for an on-axis (0 deg ) SDE implant on sub-65 nm NMOS HP devices. Effects of energy contamination introduced along with decelerated low energy ions in p-type SDE implants in PMOS devices is also discussed. 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title	High Current Implant Precision Requirements for Sub-65 nm Logic Devices
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