Title :
22nm node p+ USJ defect analysis with various PAI and HALO structures using laser annealing
Author :
Borland, John ; Tallian, Milkos ; Kosztka, David ; Pap, Aron ; Mocsar, Kalman ; Somogyi, Andras ; Nadudvari, Gyorgy ; Jastrzebski, LUbek ; Pavelka, Tibor
Author_Institution :
J.O.B. Technol., Aiea, HI, USA
fDate :
Sept. 28 2010-Oct. 1 2010
Abstract :
Boron 200eV 1E15/cm2 p+ Ultra Shallow Junctions with various PAI (Ge, Xe & In) and HALO (As & Sb) implantation activated by msec laser annealing (1220°C to 1350°C) were studied using Junction Photo Voltage (JPV) and Modulated Photo Reflectance (MPR). JPV and MPR provided information about junction quality; dopant activation, junction capacitance, residual implant damage and junction leakage. Highest p+ junction quality and best p+ dopant activation was achieved with laser annealing temperatures >1300°C. The results with Sb-HALO were worse than with As-HALO. For HALO implants junction leakage was controlled by direct band to band tunneling while for no HALO it was controlled by end of range residual PAI defects. The high junction leakage (exceeding E-5 A/cm2) could lead to unreliable Rs and junction capacitance determination.
Keywords :
antimony; arsenic; boron; capacitance; doping profiles; elemental semiconductors; germanium; indium; ion implantation; laser beam annealing; p-n junctions; photoreflectance; silicon; tunnelling; xenon; HALO structures; PAI structures; Si:As; Si:Ge; Si:In; Si:Sb; Si:Xe; dopant activation; junction capacitance; junction leakage; junction photo voltage; laser annealing; modulated photo reflectance; residual implant damage; temperature 1220 degC to 1350 degC; ultra shallow junctions; Annealing; Implants; Lasers; Temperature measurement;
Conference_Titel :
Advanced Thermal Processing of Semiconductors (RTP), 2010 18th International Conference on
Conference_Location :
Gainesville, FL
Print_ISBN :
978-1-4244-8400-3
DOI :
10.1109/RTP.2010.5623804
