Journal article

An effective magnetic field from optically driven phonons

Abstract:: Light fields at terahertz and mid-infrared frequencies allow for the direct excitation of collective modes in condensed matter, which can be driven to large amplitudes. For example, excitation of the crystal lattice has been shown to stimulate insulator-metal transitions, melt magnetic order or enhance superconductivity. Here, we generalize these ideas and explore the simultaneous excitation of more than one lattice mode, which are driven with controlled relative phases. This nonlinear mode mixing drives rotations as well as displacements of the crystal-field atoms, mimicking the application of a magnetic field and resulting in the excitation of spin precession in the rare-earth orthoferrite ErFeO 3. Coherent control of lattice rotations may become applicable to other interesting problems in materials research-for example, as a way to affect the topology of electronic phases.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Nova, T., Cartella, A., Cantaluppi, A., Först, M., Bossini, D., Mikhaylovskiy, R., Kimel, A., Merlin, R., & Cavalleri, A. (2016). An effective magnetic field from optically driven phonons. Nature Physics, 13(2), 132–136.

MLA Style

Nova, T., et al. “An Effective Magnetic Field from Optically Driven Phonons.” Nature Physics, vol. 13, no. 2, Springer Nature, 2016, pp. 132–36.

Chicago Style

Nova, T, A Cartella, A Cantaluppi, M Först, D Bossini, R Mikhaylovskiy, A Kimel, R Merlin, and A Cavalleri. 2016. “An Effective Magnetic Field from Optically Driven Phonons.” Nature Physics 13 (2): 132–36.
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Publisher copy:: 10.1038/nphys3925

Authors

+ Nova, T More by this author

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+ Cartella, A More by this author

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+ Cantaluppi, A More by this author

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+ Först, M More by this author

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+ Bossini, D More by this author

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Publisher:: Springer Nature
Journal:: Nature Physics More from this journal
Volume:: 13
Issue:: 2
Pages:: 132-136
Publication date:: 2016-10-24
Acceptance date:: 2016-09-16
DOI:: 10.1038/nphys3925
EISSN:: 1745-2481
ISSN:: 1745-2473

Language:: English
Keywords:: FFR
Pubs id:: pubs:657708
UUID:: uuid:cba8cbec-5b17-48c7-9598-69d91df3cbe0
Local pid:: pubs:657708
Source identifiers:: 657708
Deposit date:: 2019-04-30

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Copyright date:: 2016

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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