| Title |
Determination of hot carrier energy distributions from inversion of ultrafast pump-probe reflectivity measurements
|
|---|---|
| Published in |
Nature Communications, May 2018
|
| DOI | 10.1038/s41467-018-04289-3 |
| Pubmed ID | |
| Authors |
Tal Heilpern, Manoj Manjare, Alexander O. Govorov, Gary P. Wiederrecht, Stephen K. Gray, Hayk Harutyunyan |
| Abstract |
Developing a fundamental understanding of ultrafast non-thermal processes in metallic nanosystems will lead to applications in photodetection, photochemistry and photonic circuitry. Typically, non-thermal and thermal carrier populations in plasmonic systems are inferred either by making assumptions about the functional form of the initial energy distribution or using indirect sensors like localized plasmon frequency shifts. Here we directly determine non-thermal and thermal distributions and dynamics in thin films by applying a double inversion procedure to optical pump-probe data that relates the reflectivity changes around Fermi energy to the changes in the dielectric function and in the single-electron energy band occupancies. When applied to normal incidence measurements our method uncovers the ultrafast excitation of a non-Fermi-Dirac distribution and its subsequent thermalization dynamics. Furthermore, when applied to the Kretschmann configuration, we show that the excitation of propagating plasmons leads to a broader energy distribution of electrons due to the enhanced Landau damping. |
X Demographics
The data shown below were collected from the profiles of 2 X users who shared this research output. Click here to find out more about how the information was compiled.
Geographical breakdown
| Country | Count | As % |
|---|---|---|
| Unknown | 2 | 100% |
Demographic breakdown
| Type | Count | As % |
|---|---|---|
| Members of the public | 2 | 100% |
Mendeley readers
The data shown below were compiled from readership statistics for 111 Mendeley readers of this research output. Click here to see the associated Mendeley record.
Geographical breakdown
| Country | Count | As % |
|---|---|---|
| Unknown | 111 | 100% |
Demographic breakdown
| Readers by professional status | Count | As % |
|---|---|---|
| Student > Ph. D. Student | 25 | 23% |
| Researcher | 22 | 20% |
| Student > Doctoral Student | 8 | 7% |
| Student > Bachelor | 8 | 7% |
| Student > Master | 8 | 7% |
| Other | 17 | 15% |
| Unknown | 23 | 21% |
| Readers by discipline | Count | As % |
|---|---|---|
| Physics and Astronomy | 43 | 39% |
| Engineering | 16 | 14% |
| Chemistry | 11 | 10% |
| Materials Science | 9 | 8% |
| Agricultural and Biological Sciences | 2 | 2% |
| Other | 3 | 3% |
| Unknown | 27 | 24% |
Attention Score in Context
This research output has an Altmetric Attention Score of 75. This is our high-level measure of the quality and quantity of online attention that it has received. This Attention Score, as well as the ranking and number of research outputs shown below, was calculated when the research output was last mentioned on 16 June 2018.
All research outputs
#488,250
of 23,047,237 outputs
Outputs from Nature Communications
#8,564
of 47,484 outputs
Outputs of similar age
#12,258
of 326,024 outputs
Outputs of similar age from Nature Communications
#243
of 1,160 outputs
Altmetric has tracked 23,047,237 research outputs across all sources so far. Compared to these this one has done particularly well and is in the 97th percentile: it's in the top 5% of all research outputs ever tracked by Altmetric.
So far Altmetric has tracked 47,484 research outputs from this source. They typically receive a lot more attention than average, with a mean Attention Score of 55.9. This one has done well, scoring higher than 81% of its peers.
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We're also able to compare this research output to 1,160 others from the same source and published within six weeks on either side of this one. This one has done well, scoring higher than 79% of its contemporaries.