Activation of ion implanted Si for backside processing by ultra-fast laser thermal annealing: Energy homogeneity and micro-scale sheet resistance

Activation of ion implanted Si for backside processing by ultra-fast laser thermal annealing: Energy homogeneity and micro-scale sheet resistance

In this paper ion activation of implanted silicon using ultra-fast laser thermal annealing (LTA) process was discussed. The results stated that there was high dopant activation using LTA process for over 70%, excellent within shot activation uniformity, and there was a possibility for overlap parame...

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Hauptverfasser: Huet, K., Lin, R., Boniface, C., Desse, F., Petersen, D. H., Hansen, O., Variam, N., La Magna, A., Schuhmacher, M., Jensen, A., Nielsen, P.F., Besaucele, H., Venturing, J.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Implants
Laser transitions
Permission
Photodiodes
Semiconductor lasers
Simulated annealing
Solid lasers
Substrates
Surface emitting lasers
Thermal resistance
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Zusammenfassung:In this paper ion activation of implanted silicon using ultra-fast laser thermal annealing (LTA) process was discussed. The results stated that there was high dopant activation using LTA process for over 70%, excellent within shot activation uniformity, and there was a possibility for overlap parameter optimization. It was observed that, for activation LTA process, shallow box-shaped profiles- high diffusivity of B in liquids and high-temperatures was observed only near the surface in a submicrosecond timescale. Possible solutions were suggested as to low-cost and high-end for overlap optimization and full-die exposure optics.
ISSN:1944-0251
1944-026X
DOI:10.1109/RTP.2009.5373465