Probing ultrafast photo-induced dynamics of the exchange energy in a Heisenberg antiferromagnet

Batignani, Giovanni; Bossini, Davide; Di Palo, N.; Ferrante, Carino; Pontecorvo, Emanuele; Cerullo, Giulio; Kimel, Aleksei V.; Scopigno, Tullio

Publikation:
Probing ultrafast photo-induced dynamics of the exchange energy in a Heisenberg antiferromagnet

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Datum

2015

Autor:innen

Batignani, Giovanni

Bossini, Davide

Di Palo, N.

Ferrante, Carino

Pontecorvo, Emanuele

Cerullo, Giulio

Kimel, Aleksei V.

Scopigno, Tullio

DOI (zitierfähiger Link)

https://doi.org/10.1038/nphoton.2015.121

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Nature Photonics. Springer Nature. 2015, 9, pp. 506-510. ISSN 1749-4885. eISSN 1749-4893. Available under: doi: 10.1038/nphoton.2015.121

Zusammenfassung

Manipulating the macroscopic phases of solids using ultrashort light pulses has resulted in spectacular phenomena, including metal–insulator transitions1,2,3, superconductivity4 and subpicosecond modification of magnetic order5. The development of this research area strongly depends on the understanding and optical control of fundamental interactions in condensed matter, in particular the exchange interaction. However, disentangling the timescales relevant for the contributions of the exchange interaction and spin dynamics to the exchange energy, E_ex, is a challenge. Here, we introduce femtosecond stimulated Raman scattering to unravel the ultrafast photo-induced dynamics of magnetic excitations at the edge of the Brillouin zone. We find that femtosecond laser excitation of the antiferromagnet KNiF₃ triggers a spectral shift of the two-magnon line, the energy of which is proportional to E_ex. By unravelling the photo-induced modification of the two-magnon line frequency from a dominating nonlinear optical effect, we find that E_ex is increased by the electromagnetic stimulus.

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530 Physik

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BATIGNANI, Giovanni, Davide BOSSINI, N. DI PALO, Carino FERRANTE, Emanuele PONTECORVO, Giulio CERULLO, Aleksei V. KIMEL, Tullio SCOPIGNO, 2015. Probing ultrafast photo-induced dynamics of the exchange energy in a Heisenberg antiferromagnet. In: Nature Photonics. Springer Nature. 2015, 9, pp. 506-510. ISSN 1749-4885. eISSN 1749-4893. Available under: doi: 10.1038/nphoton.2015.121

BibTex

@article{Batignani2015Probi-53336,
  year={2015},
  doi={10.1038/nphoton.2015.121},
  title={Probing ultrafast photo-induced dynamics of the exchange energy in a Heisenberg antiferromagnet},
  volume={9},
  issn={1749-4885},
  journal={Nature Photonics},
  pages={506--510},
  author={Batignani, Giovanni and Bossini, Davide and Di Palo, N. and Ferrante, Carino and Pontecorvo, Emanuele and Cerullo, Giulio and Kimel, Aleksei V. and Scopigno, Tullio}
}

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    <dcterms:abstract xml:lang="eng">Manipulating the macroscopic phases of solids using ultrashort light pulses has resulted in spectacular phenomena, including metal–insulator transitions1,2,3, superconductivity4 and subpicosecond modification of magnetic order5. The development of this research area strongly depends on the understanding and optical control of fundamental interactions in condensed matter, in particular the exchange interaction. However, disentangling the timescales relevant for the contributions of the exchange interaction and spin dynamics to the exchange energy, E&lt;sub&gt;ex&lt;/sub&gt;, is a challenge. Here, we introduce femtosecond stimulated Raman scattering to unravel the ultrafast photo-induced dynamics of magnetic excitations at the edge of the Brillouin zone. We find that femtosecond laser excitation of the antiferromagnet KNiF&lt;sub&gt;3&lt;/sub&gt; triggers a spectral shift of the two-magnon line, the energy of which is proportional to E&lt;sub&gt;ex&lt;/sub&gt;. By unravelling the photo-induced modification of the two-magnon line frequency from a dominating nonlinear optical effect, we find that E&lt;sub&gt;ex&lt;/sub&gt; is increased by the electromagnetic stimulus.</dcterms:abstract>
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Publikation: Probing ultrafast photo-induced dynamics of the exchange energy in a Heisenberg antiferromagnet

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Publikation:
Probing ultrafast photo-induced dynamics of the exchange energy in a Heisenberg antiferromagnet