Linear increase of the modal gain in 1.3 μm InAs/GaAs quantum dot lasers containing up to seven-stacked QD layers

A. Salhi; G. Rainò; L. Fortunato; V. Tasco; L. Martiradonna; M. T. Todaro; M. De Giorgi; R. Cingolani; A. Passaseo; E. Luna; A. Trampert; M. De Vittorio

doi:10.1088/0957-4484/19/27/275401

Linear increase of the modal gain in 1.3 μm InAs/GaAs quantum dot lasers containing up to seven-stacked QD layers

A. Salhi^*
, G. Rainò
, L. Fortunato
, V. Tasco
, L. Martiradonna
, M. T. Todaro
, M. De Giorgi
, R. Cingolani
, A. Passaseo
, E. Luna
, A. Trampert
, M. De Vittorio

^*Corresponding author for this work

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

14 Citations (Scopus)

Abstract

The authors have recently demonstrated the enhancement of the quantum dot laser modal gain, linearly scaling with the number of stacked QD layers. These results allowed the achievement of multi-quantum dot (MQD) lasers, the zero-dimensional counterpart of MQW lasers, with a modal gain as high as 42 cm^-1, in a seven-layer structure. A detailed investigation of the structural and optical properties was performed on laser structures with three, five and seven QD layers. Such an investigation clearly shows that the high uniformity of QD layer features is responsible for the linear increase of the modal gain and its high value.

Original language	English
Article number	275401
Journal	Nanotechnology
Volume	19
Issue number	27
DOIs	https://doi.org/10.1088/0957-4484/19/27/275401
Publication status	Published - 9 Jul 2008
Externally published	Yes

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Salhi, A., Rainò, G., Fortunato, L., Tasco, V., Martiradonna, L., Todaro, M. T., De Giorgi, M., Cingolani, R., Passaseo, A., Luna, E., Trampert, A., & De Vittorio, M. (2008). Linear increase of the modal gain in 1.3 μm InAs/GaAs quantum dot lasers containing up to seven-stacked QD layers. Nanotechnology, 19(27), Article 275401. https://doi.org/10.1088/0957-4484/19/27/275401

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abstract = "The authors have recently demonstrated the enhancement of the quantum dot laser modal gain, linearly scaling with the number of stacked QD layers. These results allowed the achievement of multi-quantum dot (MQD) lasers, the zero-dimensional counterpart of MQW lasers, with a modal gain as high as 42 cm-1, in a seven-layer structure. A detailed investigation of the structural and optical properties was performed on laser structures with three, five and seven QD layers. Such an investigation clearly shows that the high uniformity of QD layer features is responsible for the linear increase of the modal gain and its high value.",

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AU - Salhi, A.

AU - Rainò, G.

AU - Fortunato, L.

AU - Tasco, V.

AU - Martiradonna, L.

AU - Todaro, M. T.

AU - De Giorgi, M.

AU - Cingolani, R.

AU - Passaseo, A.

AU - Luna, E.

AU - Trampert, A.

AU - De Vittorio, M.

PY - 2008/7/9

Y1 - 2008/7/9

N2 - The authors have recently demonstrated the enhancement of the quantum dot laser modal gain, linearly scaling with the number of stacked QD layers. These results allowed the achievement of multi-quantum dot (MQD) lasers, the zero-dimensional counterpart of MQW lasers, with a modal gain as high as 42 cm-1, in a seven-layer structure. A detailed investigation of the structural and optical properties was performed on laser structures with three, five and seven QD layers. Such an investigation clearly shows that the high uniformity of QD layer features is responsible for the linear increase of the modal gain and its high value.

AB - The authors have recently demonstrated the enhancement of the quantum dot laser modal gain, linearly scaling with the number of stacked QD layers. These results allowed the achievement of multi-quantum dot (MQD) lasers, the zero-dimensional counterpart of MQW lasers, with a modal gain as high as 42 cm-1, in a seven-layer structure. A detailed investigation of the structural and optical properties was performed on laser structures with three, five and seven QD layers. Such an investigation clearly shows that the high uniformity of QD layer features is responsible for the linear increase of the modal gain and its high value.

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VL - 19

JO - Nanotechnology

JF - Nanotechnology

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M1 - 275401

ER -

Linear increase of the modal gain in 1.3 μm InAs/GaAs quantum dot lasers containing up to seven-stacked QD layers

Abstract

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