مرکز منطقه ای اطلاع رساني علوم و فناوري - 45nm Node p+ USJ Formation With High Dopant Activation And Low Damage

DocumentCode :

2387416

Title :

45nm Node p+ USJ Formation With High Dopant Activation And Low Damage

Author :

Borland, John ; Shishiguchi, Seiichi ; Mineji, Akira ; Krull, Wade ; Jacobson, Dale ; Tanjyo, Masayasu ; Lerch, Wilfried ; Paul, Silke ; Gelpey, Jeff ; McCoy, Steve ; Venturini, Julien ; Current, Michael ; Faifer, Vladimir ; Hillard, Robert ; Benjamin, Ma

Author_Institution :

J.O.B Technol., South Hamilton, MA

fYear :

fDate :

0-0 0

Firstpage :

Lastpage :

Abstract :

We investigated various p+ extension implantation dopant species (B, BF₂, B₁₀H₁₄ & B₁₈H ₂₂) and annealing techniques (spike, flash, laser and SPE) to achieve high dopant activation low damage ultra-shallow junctions (USJ) 15-20 nm deep for 45 nm node applications. New USJ metrology techniques were investigated to determine: 1) surface dopant activation level and 2) junction quality (residual implant damage) using contact and non-contact full wafer metrology methods. We discovered that using molecular dopant species (B₁₀H₁₄ & B₁₈H₂₂) either high temperature (flash or laser) annealing or low temperature SPE annealing are very promising for the 45 nm node process integration with SiON or high-k Hf-based dielectric gate stack structures because of their wide temperature range for dopant activation without diffusion

Keywords :

boron; boron compounds; elemental semiconductors; ion implantation; laser beam annealing; semiconductor doping; semiconductor junctions; silicon; solid phase epitaxial growth; 15 to 20 nm; 45 nm; 45 nm node p+ USJ formation; SPE annealing; Si:B; Si:B₁₀H₁₄; Si:B₁₈H₂₂; Si:BF₂; SiON dielectric gate stack structures; USJ metrology techniques; contact full wafer metrology method; flash annealing; high-k Hf-based dielectric gate stack structures; junction quality; laser annealing; molecular dopant species; noncontact full wafer metrology method; p+ extension implantation dopant species; residual implant damage; solid-phase epitaxial technique; spike annealing; surface dopant activation level; ultra-shallow junctions; Annealing; Boron; Crystallization; Electric variables measurement; Electrical resistance measurement; Implants; Metrology; Pollution measurement; Silicon; Temperature distribution;

fLanguage :

English

Publisher :

ieee

Conference_Titel :

Junction Technology, 2006. IWJT '06. International Workshop on

Conference_Location :

Shanghai

Print_ISBN :

1-4244-0047-3

Type :

conf

DOI :

10.1109/IWJT.2006.220849

Filename :

1669436

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=2387416