Sub-Picosecond Carrier Dynamics Explored using Automated High-Throughput Studies of Doping Inhomogeneity within a Bayesian Framework
Bottom-up production of semiconductor nanomaterials is often accompanied by inhomogeneity resulting in a spread in electronic properties which may be influenced by the nanoparticle geometry, crystal quality, stoichiometry or doping. Using photoluminescence spectroscopy of a population of more than 2...
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| creator | Al-Abri, Ruqaiya Al-Amairi, Nawal Byrne, Conor Sivakumar, Sudhakar Walton, Alex Magnusson, Martin Parkinson, Patrick |
| description | Bottom-up production of semiconductor nanomaterials is often accompanied by
inhomogeneity resulting in a spread in electronic properties which may be
influenced by the nanoparticle geometry, crystal quality, stoichiometry or
doping. Using photoluminescence spectroscopy of a population of more than
20,000 individual Zn-doped GaAs nanowires, we reveal inhomogeneity in, and
correlation between doping and nanowire diameter by use of a Bayesian
statistical approach. Recombination of hot-carriers is shown to be responsible
for the photoluminescence lineshape; by exploiting lifetime variation across
the population, we reveal hot-carrier dynamics at the sub-picosecond timescale
showing interband electronic dynamics. High-throughput spectroscopy together
with a Bayesian approach are shown to provide unique insight in an
inhomogeneous nanomaterial population, and can reveal electronic dynamics
otherwise requiring complex pump-probe experiments in highly non-equilibrium
conditions. |
| doi_str_mv | 10.48550/arxiv.2301.10839 |
| format | Article |
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inhomogeneity resulting in a spread in electronic properties which may be
influenced by the nanoparticle geometry, crystal quality, stoichiometry or
doping. Using photoluminescence spectroscopy of a population of more than
20,000 individual Zn-doped GaAs nanowires, we reveal inhomogeneity in, and
correlation between doping and nanowire diameter by use of a Bayesian
statistical approach. Recombination of hot-carriers is shown to be responsible
for the photoluminescence lineshape; by exploiting lifetime variation across
the population, we reveal hot-carrier dynamics at the sub-picosecond timescale
showing interband electronic dynamics. High-throughput spectroscopy together
with a Bayesian approach are shown to provide unique insight in an
inhomogeneous nanomaterial population, and can reveal electronic dynamics
otherwise requiring complex pump-probe experiments in highly non-equilibrium
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inhomogeneity resulting in a spread in electronic properties which may be
influenced by the nanoparticle geometry, crystal quality, stoichiometry or
doping. Using photoluminescence spectroscopy of a population of more than
20,000 individual Zn-doped GaAs nanowires, we reveal inhomogeneity in, and
correlation between doping and nanowire diameter by use of a Bayesian
statistical approach. Recombination of hot-carriers is shown to be responsible
for the photoluminescence lineshape; by exploiting lifetime variation across
the population, we reveal hot-carrier dynamics at the sub-picosecond timescale
showing interband electronic dynamics. High-throughput spectroscopy together
with a Bayesian approach are shown to provide unique insight in an
inhomogeneous nanomaterial population, and can reveal electronic dynamics
otherwise requiring complex pump-probe experiments in highly non-equilibrium
conditions.</description><subject>Physics - Computational Physics</subject><subject>Physics - Data Analysis, Statistics and Probability</subject><subject>Physics - Materials Science</subject><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>GOX</sourceid><recordid>eNotkL1ugzAURlk6VGkfoFP9AlB-jA1jSpImUqRWIju62BewGmxkQxP2PnhL2unTkT6d4XjeUxQGNEvT8AXsVX0FcRJGQRRmSX7vfZdT7X8oYRwKoyUpwFqFlmxmDb0Sjmyvw9lYlGRySrdkPY2mh_GX96rt_FNnzdR2wzSScpykQkdMQzZmWL4H3ZnetKhRjTO5qLFTmgB5hRmdAk12Fnq8GPv54N01cHb4-L8rr9xtT8XeP76_HYr10QfGc58J5JiEgjUhAMMsYzHNKZO1pA3nLBM0orGgEItcpHUGC8Up57LhmMs4WXnPf9ZbhWqwqgc7V0uN6lYj-QEQX108</recordid><startdate>20230125</startdate><enddate>20230125</enddate><creator>Al-Abri, Ruqaiya</creator><creator>Al-Amairi, Nawal</creator><creator>Byrne, Conor</creator><creator>Sivakumar, Sudhakar</creator><creator>Walton, Alex</creator><creator>Magnusson, Martin</creator><creator>Parkinson, Patrick</creator><scope>GOX</scope></search><sort><creationdate>20230125</creationdate><title>Sub-Picosecond Carrier Dynamics Explored using Automated High-Throughput Studies of Doping Inhomogeneity within a Bayesian Framework</title><author>Al-Abri, Ruqaiya ; Al-Amairi, Nawal ; Byrne, Conor ; Sivakumar, Sudhakar ; Walton, Alex ; Magnusson, Martin ; Parkinson, Patrick</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a679-6ce7e30c6f0aa6e88624946dbd4f7768c4142c4a2c9c5b8a142c2577df7e9d23</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>Physics - Computational Physics</topic><topic>Physics - Data Analysis, Statistics and Probability</topic><topic>Physics - Materials Science</topic><toplevel>online_resources</toplevel><creatorcontrib>Al-Abri, Ruqaiya</creatorcontrib><creatorcontrib>Al-Amairi, Nawal</creatorcontrib><creatorcontrib>Byrne, Conor</creatorcontrib><creatorcontrib>Sivakumar, Sudhakar</creatorcontrib><creatorcontrib>Walton, Alex</creatorcontrib><creatorcontrib>Magnusson, Martin</creatorcontrib><creatorcontrib>Parkinson, Patrick</creatorcontrib><collection>arXiv.org</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Al-Abri, Ruqaiya</au><au>Al-Amairi, Nawal</au><au>Byrne, Conor</au><au>Sivakumar, Sudhakar</au><au>Walton, Alex</au><au>Magnusson, Martin</au><au>Parkinson, Patrick</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Sub-Picosecond Carrier Dynamics Explored using Automated High-Throughput Studies of Doping Inhomogeneity within a Bayesian Framework</atitle><date>2023-01-25</date><risdate>2023</risdate><abstract>Bottom-up production of semiconductor nanomaterials is often accompanied by
inhomogeneity resulting in a spread in electronic properties which may be
influenced by the nanoparticle geometry, crystal quality, stoichiometry or
doping. Using photoluminescence spectroscopy of a population of more than
20,000 individual Zn-doped GaAs nanowires, we reveal inhomogeneity in, and
correlation between doping and nanowire diameter by use of a Bayesian
statistical approach. Recombination of hot-carriers is shown to be responsible
for the photoluminescence lineshape; by exploiting lifetime variation across
the population, we reveal hot-carrier dynamics at the sub-picosecond timescale
showing interband electronic dynamics. High-throughput spectroscopy together
with a Bayesian approach are shown to provide unique insight in an
inhomogeneous nanomaterial population, and can reveal electronic dynamics
otherwise requiring complex pump-probe experiments in highly non-equilibrium
conditions.</abstract><doi>10.48550/arxiv.2301.10839</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Physics - Computational Physics Physics - Data Analysis, Statistics and Probability Physics - Materials Science |
| title | Sub-Picosecond Carrier Dynamics Explored using Automated High-Throughput Studies of Doping Inhomogeneity within a Bayesian Framework |
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