Experimental demonstration of a two-dimensional hole gas in a GaN/AlGaN/GaN based heterostructure by optical spectroscopy
The polarization discontinuity across interfaces in polar nitride-based heterostructures can lead to the formation of two-dimensional electron and hole gases. In the past, the observation of these electron and hole gases has been achieved through various experimental techniques, most often by electr...
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sg-ntu-dr.10356-1749602024-04-22T15:36:49Z Experimental demonstration of a two-dimensional hole gas in a GaN/AlGaN/GaN based heterostructure by optical spectroscopy Méchin, Loïc Médard, François Leymarie, Joël Bouchoule, Sophie Duboz, Jean-Yves Alloing, Blandine Zuñiga-Pérez, Jesús Disseix, Pierre School of Physical and Mathematical Sciences Majulab, International Research Laboratory IRL 3654, CNRS, Université Côte d'Azur, Sorbonne Université, National University of Singapore, Nanyang Technological University Physics Aluminum gallium nitride Electric excitation The polarization discontinuity across interfaces in polar nitride-based heterostructures can lead to the formation of two-dimensional electron and hole gases. In the past, the observation of these electron and hole gases has been achieved through various experimental techniques, most often by electronic measurements but occasionally by optical means. However, the occurrence of a two-dimensional hole gas has never been demonstrated optically in nitride-based heterostructures. The objective of this article is to demonstrate, thanks to the combination of various optical spectroscopy techniques coupled to numerical simulations, the presence of a two-dimensional hole gas in a GaN/AlGaN/GaN heterostructure. This is made possible thanks to a GaN/AlGaN/GaN heterostructure displaying a micrometer-thick AlGaN layer and a GaN cap thicker than in conventional GaN-based HEMTs structures. The band structure across the whole heterostructure was established by solving self-consistently the Schrödinger and Poisson equations and by taking into account the experimentally determined strain state of each layer. The appearance of a two-dimensional hole gas in such structure is thus established first theoretically. Continuous and quasicontinuous photoluminescence, spanning six orders of magnitude excitation intensities, reveal the presence of a broad emission band at an energy around 50 meV below the exciton emission and whose energy blueshifts with increasing excitation power density, until it is completely quenched due to the complete screening of the internal electric field. Time-resolved measurements show that the emission arising from the two-dimensional hole gas can be assigned to the recombination of holes in the potential well with electrons located in the top GaN as well as electron from the bottom AlGaN, each of them displaying different decay times due to unequal electric fields. Besides the optical demonstration of a two-dimensional hole gas in a nitride-based heterostructure, our work highlights the rich optical recombination processes involved in the emission from such a hole gas. Published version The authors acknowledge funding from the French National Research Agency (Grant No. ANR-21-CE24-0019- NEWAVE). We acknowledge support from GANEXT (Grant No. ANR-11- LABX-0014); GANEXT belongs to the publicly funded ‘Investissements d’Avenir’ program managed by the French National Research Agency, France. 2024-04-17T05:48:03Z 2024-04-17T05:48:03Z 2024 Journal Article Méchin, L., Médard, F., Leymarie, J., Bouchoule, S., Duboz, J., Alloing, B., Zuñiga-Pérez, J. & Disseix, P. (2024). Experimental demonstration of a two-dimensional hole gas in a GaN/AlGaN/GaN based heterostructure by optical spectroscopy. Physical Review B, 109(12), 125401-. https://dx.doi.org/10.1103/PhysRevB.109.125401 2469-9950 https://hdl.handle.net/10356/174960 10.1103/PhysRevB.109.125401 2-s2.0-85186327124 12 109 125401 en Physical Review B © 2024 American Physical Society. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1103/PhysRevB.109.125401 application/pdf |
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Physics Aluminum gallium nitride Electric excitation |
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Physics Aluminum gallium nitride Electric excitation Méchin, Loïc Médard, François Leymarie, Joël Bouchoule, Sophie Duboz, Jean-Yves Alloing, Blandine Zuñiga-Pérez, Jesús Disseix, Pierre Experimental demonstration of a two-dimensional hole gas in a GaN/AlGaN/GaN based heterostructure by optical spectroscopy |
| description |
The polarization discontinuity across interfaces in polar nitride-based heterostructures can lead to the formation of two-dimensional electron and hole gases. In the past, the observation of these electron and hole gases has been achieved through various experimental techniques, most often by electronic measurements but occasionally by optical means. However, the occurrence of a two-dimensional hole gas has never been demonstrated optically in nitride-based heterostructures. The objective of this article is to demonstrate, thanks to the combination of various optical spectroscopy techniques coupled to numerical simulations, the presence of a two-dimensional hole gas in a GaN/AlGaN/GaN heterostructure. This is made possible thanks to a GaN/AlGaN/GaN heterostructure displaying a micrometer-thick AlGaN layer and a GaN cap thicker than in conventional GaN-based HEMTs structures. The band structure across the whole heterostructure was established by solving self-consistently the Schrödinger and Poisson equations and by taking into account the experimentally determined strain state of each layer. The appearance of a two-dimensional hole gas in such structure is thus established first theoretically. Continuous and quasicontinuous photoluminescence, spanning six orders of magnitude excitation intensities, reveal the presence of a broad emission band at an energy around 50 meV below the exciton emission and whose energy blueshifts with increasing excitation power density, until it is completely quenched due to the complete screening of the internal electric field. Time-resolved measurements show that the emission arising from the two-dimensional hole gas can be assigned to the recombination of holes in the potential well with electrons located in the top GaN as well as electron from the bottom AlGaN, each of them displaying different decay times due to unequal electric fields. Besides the optical demonstration of a two-dimensional hole gas in a nitride-based heterostructure, our work highlights the rich optical recombination processes involved in the emission from such a hole gas. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Méchin, Loïc Médard, François Leymarie, Joël Bouchoule, Sophie Duboz, Jean-Yves Alloing, Blandine Zuñiga-Pérez, Jesús Disseix, Pierre |
| format |
Article |
| author |
Méchin, Loïc Médard, François Leymarie, Joël Bouchoule, Sophie Duboz, Jean-Yves Alloing, Blandine Zuñiga-Pérez, Jesús Disseix, Pierre |
| author_sort |
Méchin, Loïc |
| title |
Experimental demonstration of a two-dimensional hole gas in a GaN/AlGaN/GaN based heterostructure by optical spectroscopy |
| title_short |
Experimental demonstration of a two-dimensional hole gas in a GaN/AlGaN/GaN based heterostructure by optical spectroscopy |
| title_full |
Experimental demonstration of a two-dimensional hole gas in a GaN/AlGaN/GaN based heterostructure by optical spectroscopy |
| title_fullStr |
Experimental demonstration of a two-dimensional hole gas in a GaN/AlGaN/GaN based heterostructure by optical spectroscopy |
| title_full_unstemmed |
Experimental demonstration of a two-dimensional hole gas in a GaN/AlGaN/GaN based heterostructure by optical spectroscopy |
| title_sort |
experimental demonstration of a two-dimensional hole gas in a gan/algan/gan based heterostructure by optical spectroscopy |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174960 |
| _version_ |
1806059914919936000 |