Fully depleted 20-nm SOI CMOSFETs with W-clad gate/source/drain layers

Fully-depleted 20-nm SOI complementary metal-oxide-semiconductor field effect transistors (CMOSFETs) were successfully fabricated without a raised source/drain (S/D) structure, instead using low-temperature selective tungsten CVD (SWCVD) technology that can reduce the S/D series resistance. The thic...

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Veröffentlicht in:	IEEE transactions on electron devices 2001-07, Vol.48 (7), p.1380-1385
Hauptverfasser:	Takahashi, M., Ohno, T., Sakakibara, Y., Takayama, K.
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Sprache:	eng
Schlagworte:	Continuity Depletion Devices Drains Gates Implantation MOSFETs Optimization Silicon
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container_title	IEEE transactions on electron devices
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creator	Takahashi, M. Ohno, T. Sakakibara, Y. Takayama, K.
description	Fully-depleted 20-nm SOI complementary metal-oxide-semiconductor field effect transistors (CMOSFETs) were successfully fabricated without a raised source/drain (S/D) structure, instead using low-temperature selective tungsten CVD (SWCVD) technology that can reduce the S/D series resistance. The thickness of the residual SOI layer under the W-clad layer in the S/D region was 6 nm for an nMOSFET and 9 nm for a pMOSFET. For 0.15-/spl mu/m-gate CMOSFETs, the subthreshold swings were 70 and 75 mV/dec for the nMOSFET and pMOSFET, respectively. The effectiveness of SWCVD technology when applied to ultrathin SOI devices was confirmed by small Si consumption and good continuity between the W and SOI layers. We expect that the S/D series resistance can be reduced to less than 1 k/spl Omega/-/spl mu/m by optimizing the S/D implantation conditions.
doi_str_mv	10.1109/16.930655
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The thickness of the residual SOI layer under the W-clad layer in the S/D region was 6 nm for an nMOSFET and 9 nm for a pMOSFET. For 0.15-/spl mu/m-gate CMOSFETs, the subthreshold swings were 70 and 75 mV/dec for the nMOSFET and pMOSFET, respectively. The effectiveness of SWCVD technology when applied to ultrathin SOI devices was confirmed by small Si consumption and good continuity between the W and SOI layers. We expect that the S/D series resistance can be reduced to less than 1 k/spl Omega/-/spl mu/m by optimizing the S/D implantation conditions.</description><identifier>ISSN: 0018-9383</identifier><identifier>EISSN: 1557-9646</identifier><identifier>DOI: 10.1109/16.930655</identifier><identifier>CODEN: IETDAI</identifier><language>eng</language><publisher>New York: IEEE</publisher><subject>Continuity ; Depletion ; Devices ; Drains ; Gates ; Implantation ; MOSFETs ; Optimization ; Silicon</subject><ispartof>IEEE transactions on electron devices, 2001-07, Vol.48 (7), p.1380-1385</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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The thickness of the residual SOI layer under the W-clad layer in the S/D region was 6 nm for an nMOSFET and 9 nm for a pMOSFET. For 0.15-/spl mu/m-gate CMOSFETs, the subthreshold swings were 70 and 75 mV/dec for the nMOSFET and pMOSFET, respectively. The effectiveness of SWCVD technology when applied to ultrathin SOI devices was confirmed by small Si consumption and good continuity between the W and SOI layers. We expect that the S/D series resistance can be reduced to less than 1 k/spl Omega/-/spl mu/m by optimizing the S/D implantation conditions.</description><subject>Continuity</subject><subject>Depletion</subject><subject>Devices</subject><subject>Drains</subject><subject>Gates</subject><subject>Implantation</subject><subject>MOSFETs</subject><subject>Optimization</subject><subject>Silicon</subject><issn>0018-9383</issn><issn>1557-9646</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2001</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNqN0b9LAzEUB_AgCtbq4OoUHESHa_M7uVGK1UKlQxXHI70keiW9q8kd0v_elBMHB-n0CO-TB-_7ALjEaIQxysdYjHKKBOdHYIA5l1kumDgGA4SwynKq6Ck4i3GdnoIxMgDTaef9Dhq79ba1BhKU1Ru4XMzg5HmxnD68RPhVtR_wLSu9NvBdt3Ycmy6UdmyCrmro9c6GeA5OnPbRXvzUIXhNfydP2XzxOJvcz7OSYtZmTklHBNa0FIRLTghXlFPnVkpSJnhO2EpiaYihJTGYam6o1U5ynDuLVprRIbjp525D89nZ2BabKpbWe13bposFUTllCpEDIFFckgOgkISmqBK8_RdiIXFaiKaMh-D6D12nyOoUTKEUU0Ritl_lrkdlaGIM1hXbUG102BUYFftbpolFf8tkr3pbWWt_3U_zG-hclFQ</recordid><startdate>200107</startdate><enddate>200107</enddate><creator>Takahashi, M.</creator><creator>Ohno, T.</creator><creator>Sakakibara, Y.</creator><creator>Takayama, K.</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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The thickness of the residual SOI layer under the W-clad layer in the S/D region was 6 nm for an nMOSFET and 9 nm for a pMOSFET. For 0.15-/spl mu/m-gate CMOSFETs, the subthreshold swings were 70 and 75 mV/dec for the nMOSFET and pMOSFET, respectively. The effectiveness of SWCVD technology when applied to ultrathin SOI devices was confirmed by small Si consumption and good continuity between the W and SOI layers. We expect that the S/D series resistance can be reduced to less than 1 k/spl Omega/-/spl mu/m by optimizing the S/D implantation conditions.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/16.930655</doi><tpages>6</tpages></addata></record>
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title	Fully depleted 20-nm SOI CMOSFETs with W-clad gate/source/drain layers
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