Few-femtosecond phase-sensitive detection of infrared electric fields with a third-order nonlinearity
| dc.contributor.author | Kempf, Hannes | |
| dc.contributor.author | Sulzer, Philipp | |
| dc.contributor.author | Liehl, Andreas | |
| dc.contributor.author | Leitenstorfer, Alfred | |
| dc.contributor.author | Tenne, Ron | |
| dc.date.accessioned | 2023-08-02T07:59:34Z | |
| dc.date.available | 2023-08-02T07:59:34Z | |
| dc.date.issued | 2023-06-20 | |
| dc.description.abstract | Measuring an electric field waveform beyond radio frequencies is often accomplished via a second-order nonlinear interaction with a laser pulse shorter than half of the field’s oscillation period. However, synthesizing such a gate pulse is extremely challenging when sampling mid- (MIR) and near- (NIR) infrared transients. Here, we demonstrate an alternative approach: a third-order nonlinear interaction with a relatively long multi-cycle pulse directly retrieves an electric-field transient whose central frequency is 156 THz. A theoretical model, exploring the different nonlinear frequency mixing processes, accurately reproduces our results. Furthermore, we demonstrate a measurement of the real part of a sample’s dielectric function, information that is challenging to retrieve in time-resolved spectroscopy and is therefore often overlooked. Our method paves the way towards experimentally simple MIR-to-NIR time-resolved spectroscopy that simultaneously extracts the spectral amplitude and phase information, an important extension of optical pump-probe spectroscopy of, e.g., molecular vibrations and fundamental excitations in condensed-matter physics. | |
| dc.description.version | published | deu |
| dc.identifier.doi | 10.1038/s42005-023-01269-y | |
| dc.identifier.ppn | 185417634X | |
| dc.identifier.uri | https://kops.uni-konstanz.de/handle/123456789/67474 | |
| dc.language.iso | eng | |
| dc.rights | Attribution 4.0 International | |
| dc.rights.uri | http://creativecommons.org/licenses/by/4.0/ | |
| dc.subject.ddc | 530 | |
| dc.title | Few-femtosecond phase-sensitive detection of infrared electric fields with a third-order nonlinearity | eng |
| dc.type | JOURNAL_ARTICLE | |
| dspace.entity.type | Publication | |
| kops.citation.bibtex | @article{Kempf2023-06-20Fewfe-67474,
year={2023},
doi={10.1038/s42005-023-01269-y},
title={Few-femtosecond phase-sensitive detection of infrared electric fields with a third-order nonlinearity},
number={1},
volume={6},
journal={Communications Physics},
author={Kempf, Hannes and Sulzer, Philipp and Liehl, Andreas and Leitenstorfer, Alfred and Tenne, Ron},
note={Deutsche Forschungsgemeinschaft (DFG)—Project-ID 425217212—SFB 1432 Article Number: 145}
} | |
| kops.citation.iso690 | KEMPF, Hannes, Philipp SULZER, Andreas LIEHL, Alfred LEITENSTORFER, Ron TENNE, 2023. Few-femtosecond phase-sensitive detection of infrared electric fields with a third-order nonlinearity. In: Communications Physics. Springer. 2023, 6(1), 145. eISSN 2399-3650. Available under: doi: 10.1038/s42005-023-01269-y | deu |
| kops.citation.iso690 | KEMPF, Hannes, Philipp SULZER, Andreas LIEHL, Alfred LEITENSTORFER, Ron TENNE, 2023. Few-femtosecond phase-sensitive detection of infrared electric fields with a third-order nonlinearity. In: Communications Physics. Springer. 2023, 6(1), 145. eISSN 2399-3650. Available under: doi: 10.1038/s42005-023-01269-y | eng |
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<dcterms:abstract>Measuring an electric field waveform beyond radio frequencies is often accomplished via a second-order nonlinear interaction with a laser pulse shorter than half of the field’s oscillation period. However, synthesizing such a gate pulse is extremely challenging when sampling mid- (MIR) and near- (NIR) infrared transients. Here, we demonstrate an alternative approach: a third-order nonlinear interaction with a relatively long multi-cycle pulse directly retrieves an electric-field transient whose central frequency is 156 THz. A theoretical model, exploring the different nonlinear frequency mixing processes, accurately reproduces our results. Furthermore, we demonstrate a measurement of the real part of a sample’s dielectric function, information that is challenging to retrieve in time-resolved spectroscopy and is therefore often overlooked. Our method paves the way towards experimentally simple MIR-to-NIR time-resolved spectroscopy that simultaneously extracts the spectral amplitude and phase information, an important extension of optical pump-probe spectroscopy of, e.g., molecular vibrations and fundamental excitations in condensed-matter physics.</dcterms:abstract>
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