2019
DOI: 10.1103/physrevb.100.024428
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Laser-driven quantum magnonics and terahertz dynamics of the order parameter in antiferromagnets

Abstract: The impulsive generation of two-magnon modes in antiferromagnets by femtosecond optical pulses, so-called femto-nanomagnons, leads to coherent longitudinal oscillations of the antiferromagnetic order parameter that cannot be described by a thermodynamic Landau-Lifshitz approach. We argue that this dynamics is triggered as a result of a laser-induced modification of the exchange interaction. In order to describe the oscillations we have formulated a quantum mechanical description in terms of magnon pair operato… Show more

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Cited by 59 publications
(73 citation statements)
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“…For the simple cubic lattice we use the following time-dependent perturbation of the spin Hamiltonian (i.e. the Raman scattering operator) [20][21][22][23]…”
Section: Spin Dynamicsmentioning
confidence: 99%
See 1 more Smart Citation
“…For the simple cubic lattice we use the following time-dependent perturbation of the spin Hamiltonian (i.e. the Raman scattering operator) [20][21][22][23]…”
Section: Spin Dynamicsmentioning
confidence: 99%
“…Our main interest is the study of impulsively stimulated Raman scattering that was recently investigated both experimentally and theoretically on the basis of harmonic magnon theory [4,5,22]. To model this problem, we approximate the time-dependent change of the exchange interaction as a square pulse with height ∆J ex and temporal width τ .…”
Section: Spin Dynamicsmentioning
confidence: 99%
“…While investigated theoretically, the latter have been largely forgotten, probably owing to the experimental challenge of generating them. The squeezing concept applies to bosonic modes in general, and squeezed states of magnons [14][15][16][17] and phonons 18 have also been achieved experimentally.…”
Section: Introductionmentioning
confidence: 99%
“…The limitations in achieving further increases of H k to realize higher-frequency magnetic devices have led to the exploitation of AF materials that have faster dynamic responses than are available in their ferromagnetic counterparts [1,7,24]. Resonance experiments of single-phase antiferromagnets are typically conducted with terahertzrange optical or electrical field probing techniques [8,[25][26][27][28][29], with limited reports of antiferromagnets with dynamics in the range of conventional microwave electronics [30]. Therefore, there is a particular research interest in synthetic antiferromagnetic (SAF) structures, comprised of an exchange-coupled ferromagnet-nonmagnet-ferromagnet (FM-NM-FM) multilayers.…”
Section: Introductionmentioning
confidence: 99%