Mechanical and Electrical Analysis of Strained Liner Effect in 35 nm Fully Depleted Silicon-on-Insulator Devices with Ultra Thin Silicon Channels

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概要

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• We study the effects of a strained contact etch stop layer (CESL) on fully depleted (FD) silicon-on-insulator (SOI) devices with ultra thin silicon channels. As expected from extensive simulation analysis, the electrical results demonstrate that in spite of the raised source/drain architecture, the stress is effectively transferred from the liner into the underlying channel. Using a tensile liner for the n-type metal–oxide–semiconductor field effect transistor (nMOS) and a compressive liner for the p-type metal–oxide–semiconductor field effect transistor (pMOS), transistor performance enhancements of 10% and 17%, respectively, were obtained. Moreover, with a tensile (/compressive) liner, tensile (/compressive) edge effects become dominant for short devices whereas the stress becomes less tensile (/compressive) for longer devices. Indeed, the balance between these two contributions and the strain level in the channel are highly dependent on geometrical parameters ($W$, $L_{\text{gate}}$).

• 2006-04-30

著者

• LOUBET N.

  STMicroelectronics

• DENORME S.

  STMicroelectronics

• LEVERD F.

  STMicroelectronics

• GOURAUD P.

  STMicroelectronics

• SKOTNICKI T.

  STMicroelectronics

• LAVIRON C.

  CEA-LETI

• BOEUF F.

  STMicroelectronics

• FENOUILLET-BERANGER C.

  CEA-LETI

• KORMANN T.

  Philips Semiconductors

• TARNOWKA A.

  Philips Semiconductors

• GALLON C.

  STMicroelectronics

• BROEKAART M.

  Philips

• IMBERT G.

  STMicroelectronics

• CHATON C.

  CEA-LETI

• GABETTE L.

  Philips

• VIGILANT F.

  Philips

• GARNIER P.

  STMicroelectronics

• BERNARD H.

  STMicroelectronics

• VANDOOREN A.

  Freescale Semiconductors

• PANTEL R.

  STMicroelectronics

• PIONNIER F.

  STMicroelectronics

• JULLIAN S.

  Philips

• Leverd F.

  STMicroelectronics, Central R&D, 850 rue Jean Monnet, 38921 Crolles, France

• Fiori V.

  STMicroelectronics, Central R&D, 850 rue Jean Monnet, 38921 Crolles, France

• Cristoloveanu S.

  IMEP, 23 Av. des Martyrs, 38016 Grenoble, France

• Fiori V.

  STMicroelectronics, Central R&D, 850 rue Jean Monnet, 38921 Crolles, France

• Loubet N.

  STMicroelectronics, Central R&D, 850 rue Jean Monnet, 38921 Crolles, France

• Tarnowka A.

  Philips, 850 rue Jean Monnet, 38921 Crolles, France

• Kormann T.

  Philips, 850 rue Jean Monnet, 38921 Crolles, France

• Fenouillet-Beranger C.

  CEA-LETI, 17 Av. des Martyrs, 38054 Grenoble, France

• Pantel R.

  STMicroelectronics, Central R&D, 850 rue Jean Monnet, 38921 Crolles, France

• Imbert G.

  STMicroelectronics, Central R&D, 850 rue Jean Monnet, 38921 Crolles, France

• Pionnier F.

  STMicroelectronics, Central R&D, 850 rue Jean Monnet, 38921 Crolles, France

• Denorme S.

  STMicroelectronics, Central R&D, 850 rue Jean Monnet, 38921 Crolles, France

• Gallon C.

  STMicroelectronics, Central R&D, 850 rue Jean Monnet, 38921 Crolles, France

• Jullian S.

  Philips, 850 rue Jean Monnet, 38921 Crolles, France

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