Light quantum control of persisting Higgs modes in iron-based superconductors

Vaswani, Chirag; Kang, J. H.; Mootz, M.; Luo, Liang; Yang, Xu; Sundahl, C.; Cheng, Di; Huang, Chih‐Ting; Kim, Richard H. J.; Liu, Zhaoyu; Collantes, Yesusa; Hellstrom, E. E.; Perakis, I. E.; Eom, C. B.; Wang, Jigang

doi:10.1038/s41467-020-20350-6

Cited by 49 publications

(41 citation statements)

References 39 publications

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“…41 ). The experimental scheme has been extended to d-wave cuprate superconductors 42,43 and multiband superconductors 44,45 . Here we investigated THz-THG in FeSe 0.5 Te 0.5 to extract the dynamics of the superconducting order parameter upon the photoexcitation.…”

Section: Resultsmentioning

confidence: 99%

Light-induced enhancement of superconductivity in iron-based superconductor FeSe0.5Te0.5

et al. 2021

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Illumination of light on matter normally causes heating and destroys the ordered ground states. Despite this common understanding, recent advances in ultrafast light sources have enabled the non-thermal control of quantum phases. Here, we report the light-induced enhancement of superconductivity in a thin film of an iron chalcogenide FeSe0.5Te0.5, which exhibits multiple quantum condensates associated with the multi-orbital character. Upon the photoexcitation, we observed a transient increase of the superfluid density as indicated by the optical conductivity in the frequency range of superconducting gaps. The light-induced enhancement of superconductivity is further corroborated by the photoinduced enhancement of terahertz third harmonic generation, which is accounted for by the Higgs mode response. The ultrafast dynamics of two superfluid components revealed by frequency- and time-resolved terahertz measurements indicate the interplay between the condensates through the interband Cooper pairings while suggesting the potential tunability of the pairing interaction by light in the ultrafast timescale.

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Section: Resultsmentioning

confidence: 99%

Light-induced enhancement of superconductivity in iron-based superconductor FeSe0.5Te0.5

et al. 2021

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“…We recently showed that purely electronic processes in iron-based superconductors with strong interband Coulomb coupling lead to a controllable hybrid-Higgs collective mode. This mode was observed as THz four-wave-mixing signal coherent oscillations, whose field and temperature dependences are clearly distinguished from those observed in single-band or weakly-coupled multi-band superconductors 21 .…”

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confidence: 75%

“…superconducting states requires quantum sensing of their collective modes and underlying order parameters. Such characterization is challenging with ultrafast PP THz spectroscopy [20][21][22][23] . First, the collective excitations of superconducting states couple linearly to electromagnetic fields only in the presence of a finite Cooper-pair center-of-mass momentum p S .…”

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confidence: 99%

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Visualization and quantum control of light-accelerated condensates by terahertz multi-dimensional coherent spectroscopy

et al. 2022

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Characterizing and controlling high-order correlation of quantum systems is key for developing quantum devices and switching technologies. Although conventional static and ultrafast spectroscopy gives access to collective excitations characterizing quantum states, more exotic correlations cannot be easily separated from other contributions. Here we develop density matrix simulations to show that seventh-order-wave-mixing peaks with distinct temperature and field dependences in two-dimensional terahertz nonlinear spectra reveal light-induced correlations in non-equilibrium superconducting states. Above critical terahertz driving, these emerging peaks split from conventional peaks along the second axis introduced by pump-probe relative phase in two-dimensional frequency space. They are photo-generated by correlations between two-photon fluctuations and interacting quasi-particle and quasi-particle/Higgs superconductor excitations. By photo-inducing persistent symmetry breaking via light-wave propagation, we also demonstrate seventh-order-wave-mixing sensing of Higgs collective modes. Our theory suggests to use multi-dimensional spectroscopy for quantum sensing of light-driven superconductivity and paves a path for quantum operations by few-cycle-THz-periodic photocurrent modulation.

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“…Symmetry-driven physical phenomena, such as second harmonic generation and topological non-trivial properties are only a sliver of the applications for new NCS materials. [1][2][3][4][5][6][7][8][9] Ternary silicon phosphides, such as Ba 2 Si 3 P 6 , MnSiP 2 , and RuSi 4 P 4 have shown promising nonlinear optical properties, [10][11][12][13][14] and have prompted the investigation of other metal tetrel pnictides. [15] Generally, NCS structures are rare in intermetallics (< 10 %) but are much more prevalent (up to 95 %) among transition metal silicon phosphides where M/(Si + P) < 1.…”

Section: Introductionmentioning

confidence: 99%

Add a Pinch of Tetrel: The Transformation of a Centrosymmetric Metal into a Nonsymmorphic and Chiral Semiconductor

Lee

Viswanathan

Carnahan

et al. 2022

Chemistry A European J

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Centrosymmetric skutterudite RhP 3 was converted to a nonsymmorphic and chiral compound RhSi 0.3 P 2.7 (space group P2 1 2 1 2 1 ) by means of partial replacement of Si for P. The structure, determined by a combination of X-ray crystallography and solid state 31 P NMR, exhibits branched polyanionic P/Si chains that are unique among metal phosphides. A driving force to stabilize the locally noncentrosymmetric cis-RhSi 2 P 4 and fac-RhSi 3 P 3 fragments is πelectron back-donation between the Rh t 2g -type orbitals and the unoccupied antibonding Si/P orbitals, which is more effective for Si than for P. In situ studies and total energy calculations revealed the metastable nature of RhSi 0.3 P 2.7 . Electronic structure calculations predicted centrosymmetric cubic RhP 3 to be metallic which was confirmed by transport properties measurements. In contrast, the electronic structure for chiral orthorhombic RhSi 0.3 P 2.7 contained a bandgap, and this compound was shown to be a narrow gap semiconductor.

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Light quantum control of persisting Higgs modes in iron-based superconductors

Cited by 49 publications

References 39 publications

Light-induced enhancement of superconductivity in iron-based superconductor FeSe0.5Te0.5

Light-induced enhancement of superconductivity in iron-based superconductor FeSe0.5Te0.5

Visualization and quantum control of light-accelerated condensates by terahertz multi-dimensional coherent spectroscopy

Add a Pinch of Tetrel: The Transformation of a Centrosymmetric Metal into a Nonsymmorphic and Chiral Semiconductor

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