Parameterization of a-Si crystallization by continuous-wave green laser irradiation: From single spot to large area

David Munoz-Martin; Yu Chen; Miguel Morales; Juan Jose Garcia-Ballesteros; Julio Carabe; Jose Javier Gandia; Jose Domingo Santos; Maria Losurdo; Giovanni Bruno; Carlos Molpeceres

doi:10.1117/1.JPE.5.053086

Parameterization of a-Si crystallization by continuous-wave green laser irradiation: From single spot to large area

David Munoz-Martin^*
, Yu Chen
, Miguel Morales
, Juan Jose Garcia-Ballesteros
, Julio Carabe
, Jose Javier Gandia
, Jose Domingo Santos
, Maria Losurdo
, Giovanni Bruno
, Carlos Molpeceres

^*Corresponding author for this work

Technical University of Madrid
CIEMAT
National Research Council of Italy

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

An advantage of laser crystallization over conventional heating methods is its ability to limit rapid heating and cooling to thin surface layers. In the present work, thin-film amorphous-silicon samples were irradiated with a continuous-wave green laser source. Laser irradiated spots were produced by using different laser powers and irradiation times. Micro-Raman spectroscopy was used to study the crystallization induced on the irradiated surface. Both laser peak power density and irradiation time are identified as key variables in the crystallization process, but within the parametric window considered, the enhancement of the crystalline factor, is more sensitive to the power density than to the irradiation time. The optimum parameters are then used for crystallizing a large sample area by means of overlapped laser scanned lines. Ellipsometric data experimentally show that the whole volume of a micron-thick sample is crystallized.

Original language	English
Article number	053086
Journal	Journal of Photonics for Energy
Volume	5
Issue number	1
DOIs	https://doi.org/10.1117/1.JPE.5.053086
Publication status	Published - 1 Jan 2015
Externally published	Yes

Keywords

Amorphous-silicon
annealing
laser crystallization
polycrystalline silicon

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10.1117/1.JPE.5.053086

Cite this

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title = "Parameterization of a-Si crystallization by continuous-wave green laser irradiation: From single spot to large area",

abstract = "An advantage of laser crystallization over conventional heating methods is its ability to limit rapid heating and cooling to thin surface layers. In the present work, thin-film amorphous-silicon samples were irradiated with a continuous-wave green laser source. Laser irradiated spots were produced by using different laser powers and irradiation times. Micro-Raman spectroscopy was used to study the crystallization induced on the irradiated surface. Both laser peak power density and irradiation time are identified as key variables in the crystallization process, but within the parametric window considered, the enhancement of the crystalline factor, is more sensitive to the power density than to the irradiation time. The optimum parameters are then used for crystallizing a large sample area by means of overlapped laser scanned lines. Ellipsometric data experimentally show that the whole volume of a micron-thick sample is crystallized.",

keywords = "Amorphous-silicon, annealing, laser crystallization, polycrystalline silicon",

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T1 - Parameterization of a-Si crystallization by continuous-wave green laser irradiation

T2 - From single spot to large area

AU - Munoz-Martin, David

AU - Chen, Yu

AU - Morales, Miguel

AU - Garcia-Ballesteros, Juan Jose

AU - Carabe, Julio

AU - Gandia, Jose Javier

AU - Santos, Jose Domingo

AU - Losurdo, Maria

AU - Bruno, Giovanni

AU - Molpeceres, Carlos

PY - 2015/1/1

Y1 - 2015/1/1

N2 - An advantage of laser crystallization over conventional heating methods is its ability to limit rapid heating and cooling to thin surface layers. In the present work, thin-film amorphous-silicon samples were irradiated with a continuous-wave green laser source. Laser irradiated spots were produced by using different laser powers and irradiation times. Micro-Raman spectroscopy was used to study the crystallization induced on the irradiated surface. Both laser peak power density and irradiation time are identified as key variables in the crystallization process, but within the parametric window considered, the enhancement of the crystalline factor, is more sensitive to the power density than to the irradiation time. The optimum parameters are then used for crystallizing a large sample area by means of overlapped laser scanned lines. Ellipsometric data experimentally show that the whole volume of a micron-thick sample is crystallized.

AB - An advantage of laser crystallization over conventional heating methods is its ability to limit rapid heating and cooling to thin surface layers. In the present work, thin-film amorphous-silicon samples were irradiated with a continuous-wave green laser source. Laser irradiated spots were produced by using different laser powers and irradiation times. Micro-Raman spectroscopy was used to study the crystallization induced on the irradiated surface. Both laser peak power density and irradiation time are identified as key variables in the crystallization process, but within the parametric window considered, the enhancement of the crystalline factor, is more sensitive to the power density than to the irradiation time. The optimum parameters are then used for crystallizing a large sample area by means of overlapped laser scanned lines. Ellipsometric data experimentally show that the whole volume of a micron-thick sample is crystallized.

KW - Amorphous-silicon

KW - annealing

KW - laser crystallization

KW - polycrystalline silicon

UR - https://www.scopus.com/pages/publications/84948745976

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DO - 10.1117/1.JPE.5.053086

M3 - Article

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JO - Journal of Photonics for Energy

JF - Journal of Photonics for Energy

IS - 1

M1 - 053086

ER -

Parameterization of a-Si crystallization by continuous-wave green laser irradiation: From single spot to large area

Abstract

Keywords

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