Nanowire Lasers
We review principles and trends in the use of semiconductor nanowires as gain media for stimulated emission and lasing. Semiconductor nanowires have recently been widely studied for use in integrated optoelectronic devices, such as light-emitting diodes (LEDs), solar cells, and transistors. Intensiv...
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sg-ntu-dr.10356-813232023-02-28T19:30:32Z Nanowire Lasers Larrue, A. Wilhelm, C. Couteau, Christophe Soci, Cesare School of Physical and Mathematical Sciences Centre for Disruptive Photonic Technologies (CDPT) Physics and Applied Physics We review principles and trends in the use of semiconductor nanowires as gain media for stimulated emission and lasing. Semiconductor nanowires have recently been widely studied for use in integrated optoelectronic devices, such as light-emitting diodes (LEDs), solar cells, and transistors. Intensive research has also been conducted in the use of nanowires for subwavelength laser systems that take advantage of their quasione- dimensional (1D) nature, flexibility in material choice and combination, and intrinsic optoelectronic properties. First, we provide an overview on using quasi-1D nanowire systems to realize subwavelength lasers with efficient, directional, and low-threshold emission. We then describe the state of the art for nanowire lasers in terms of materials, geometry, andwavelength tunability.Next,we present the basics of lasing in semiconductor nanowires, define the key parameters for stimulated emission, and introduce the properties of nanowires. We then review advanced nanowire laser designs from the literature. Finally, we present interesting perspectives for low-threshold nanoscale light sources and optical interconnects. We intend to illustrate the potential of nanolasers inmany applications, such as nanophotonic devices that integrate electronics and photonics for next-generation optoelectronic devices. For instance, these building blocks for nanoscale photonics can be used for data storage and biomedical applications when coupled to on-chip characterization tools. These nanoscale monochromatic laser light sources promise breakthroughs in nanophotonics, as they can operate at room temperature, can potentially be electrically driven, and can yield a better understanding of intrinsic nanomaterial properties and surface-state effects in lowdimensional semiconductor systems. ASTAR (Agency for Sci., Tech. and Research, S’pore) Published version 2015-12-29T09:13:11Z 2019-12-06T14:28:26Z 2015-12-29T09:13:11Z 2019-12-06T14:28:26Z 2015 Journal Article Couteau, C., Larrue, A., Wilhelm, C., & Soci, C. (2015). Nanowire Lasers. Nanophotonics, 4(1), 90-107. 2192-8614 https://hdl.handle.net/10356/81323 http://hdl.handle.net/10220/39233 10.1515/nanoph-2015-0005, en Nanophotonics © 2015 C. Couteau et al., licensee De Gruyter Open. This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivs 3.0 License. 18 p. application/pdf |
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Physics and Applied Physics Larrue, A. Wilhelm, C. Couteau, Christophe Soci, Cesare Nanowire Lasers |
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We review principles and trends in the use of semiconductor nanowires as gain media for stimulated emission and lasing. Semiconductor nanowires have recently been widely studied for use in integrated optoelectronic devices, such as light-emitting diodes (LEDs), solar cells, and transistors. Intensive research has also been conducted in the use of nanowires for subwavelength laser systems that take advantage of their quasione- dimensional (1D) nature, flexibility in material choice and combination, and intrinsic optoelectronic properties. First, we provide an overview on using quasi-1D nanowire systems to realize subwavelength lasers with efficient, directional, and low-threshold emission. We then describe the state of the art for nanowire lasers in terms of materials, geometry, andwavelength tunability.Next,we present the basics of lasing in semiconductor nanowires, define the key parameters for stimulated emission, and introduce the properties of nanowires. We then review advanced nanowire laser designs from the literature. Finally, we present interesting perspectives for low-threshold nanoscale light sources and optical interconnects. We intend to illustrate the potential of nanolasers inmany applications, such as nanophotonic devices that integrate electronics and photonics for next-generation optoelectronic devices. For instance, these building blocks for nanoscale photonics can be used for data storage and biomedical applications when coupled to on-chip characterization tools. These nanoscale monochromatic laser light sources promise breakthroughs in nanophotonics, as they can operate at room temperature, can potentially be electrically driven, and can yield a better understanding of intrinsic nanomaterial properties and surface-state effects in lowdimensional semiconductor systems. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Larrue, A. Wilhelm, C. Couteau, Christophe Soci, Cesare |
| format |
Article |
| author |
Larrue, A. Wilhelm, C. Couteau, Christophe Soci, Cesare |
| author_sort |
Larrue, A. |
| title |
Nanowire Lasers |
| title_short |
Nanowire Lasers |
| title_full |
Nanowire Lasers |
| title_fullStr |
Nanowire Lasers |
| title_full_unstemmed |
Nanowire Lasers |
| title_sort |
nanowire lasers |
| publishDate |
2015 |
| url |
https://hdl.handle.net/10356/81323 http://hdl.handle.net/10220/39233 |
| _version_ |
1759854716867575808 |