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13 results on '"Hackl, Rudi"'

1. Anharmonic Strong-Coupling Effects at the Origin of the Charge Density Wave in CsV$_3$Sb$_5$

Author

He, Ge, Peis, Leander, Cuddy, Emma Frances, Zhao, Zhen, Li, Dong, Stumberger, Ramona, Moritz, Brian, Yang, Haitao, Gao, Hong-Jun, Devereaux, Thomas Peter, and Hackl, Rudi

Subjects
Condensed Matter - Superconductivity
Abstract

The formation of charge density waves (CDW) is a long-standing open problem particularly in dimensions higher than one. Various observations in the vanadium antimonides discovered recently, such as the missing Kohn anomaly in the acoustic phonons or the latent heat at the transition $T_{\rm CDW}$ = 95 K , further underpin this notion. Here, we study the Kagome metal CsV$_3$Sb$_5$ using polarized inelastic light scattering. The electronic energy gap $2\Delta$ as derived from the redistribution of the continuum is much larger than expected from mean-field theory and reaches values above 20 for $2\Delta/k_{\rm B}T_{\rm CDW}$. The A$_{1g}$ phonon has a discontinuity at $T_{\rm CDW}$ and a precursor starting 20 K above $T_{\rm CDW}$. Density functional theory qualitatively reproduces the redistribution of the electronic continuum at the CDW transition and the phonon energies of the pristine and distorted structures. The linewidths of all A$_{1g}$ and E$_{2g}$ phonon lines including those emerging below $T_{\rm CDW}$ were analyzed in terms of anharmonic symmetric decay revealing strong phonon-phonon coupling. In addition, we observe two CDW amplitude modes (AMs): one in A$_{1g}$ symmetry and one in E$_{2g}$ symmetry. The temperature dependence of both modes deviates from the prediction of mean-field theory. The A$_{1g}$ AM displays an asymmetric Fano-type lineshape, suggestive of strong electron-phonon coupling. The asymmetric A$_{1g}$ AM, along with the discontinuity of the A$_{1g}$ phonon, the large phonon-phonon coupling parameters and the large gap ratio, indicate the importance of anharmonic strong phonon-phonon and electron-phonon coupling for the CDW formation in CsV$_3$Sb$_5$., Comment: 19 pages, 5 figures

Published
2023

2. Polarized tip-enhanced Raman spectroscopy at liquid He temperature in ultrahigh vacuum using an off-axis parabolic mirror

Author

Peis, Leander, He, Ge, Jost, Daniel, Rager, Gabriele, and Hackl, Rudi

Subjects
Condensed Matter - Superconductivity, Physics - Instrumentation and Detectors
Abstract

Tip-enhanced Raman spectroscopy (TERS) combines inelastic light scattering well below the diffraction limit down to the nanometer range and scanning probe microscopy and, possibly, spectroscopy. In this way, topographic and spectroscopic as well as single- and two-particle information may simultaneously be collected. While single molecules can now be studied successfully, bulk solids are still not meaningfully accessible. It is the purpose of the work presented here to outline approaches toward this objective. We describe a home-built, liquid helium cooled, ultrahigh vacuum tip-enhanced Raman spectroscopy system (LHe-UHV-TERS). The setup is based on a scanning tunneling microscope and, as an innovation, an off-axis parabolic mirror having a high numerical aperture of approximately $0.85$ and a large working distance. The system is equipped with a fast load-lock chamber, a chamber for the \textit{in situ} preparation of tips, substrates, and samples, and a TERS chamber. Base pressure and temperature in the TERS chamber were approximately $3\times 10^{-11}$~mbar and 15~K, respectively. Polarization dependent tip-enhanced Raman spectra of the vibration modes of carbon nanotubes were successfully acquired at cryogenic temperature. Enhancement factors in the range of $10^7$ were observed. The new features described here including very low pressure and temperature and the external access to the light polarizations, thus the selection rules, may pave the way towards the investigation of bulk and surface materials., Comment: 11pages,7figures

Published
2022
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3. Quantum critical fluctuations in an Fe-based superconductor

Author

Jost, Daniel, Peis, Leander, He, Ge, Baum, Andreas, Geprägs, Stephan, Palmstrom, Johanna C., Ikeda, Matthias S., Fisher, Ian R., Wolf, Thomas, Lederer, Samuel, Kivelson, Steven A., and Hackl, Rudi

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

Quantum critical fluctuations may prove to play an instrumental role in the formation of unconventional superconductivity. Here, we show that the characteristic scaling of a marginal Fermi liquid is present in inelastic light scattering data of an Fe-based superconductor tuned through a quantum critical point (QCP) by chemical substitution or doping. From the doping dependence of the imaginary time dynamics we are able to distinguish regions dominated by quantum critical behavior from those having classical critical responses. This dichotomy reveals a connection between the marginal Fermi liquid behavior and quantum criticality. In particular, the overlap between regions of high superconducting transition temperatures and quantum critical scaling suggests a contribution from quantum fluctuations to the formation of superconductivity.

Published
2021
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7. Anharmonic strong-coupling effects at the origin of the charge density wave in CsV3Sb5.

Author

Ge He, Peis, Leander, Cuddy, Emma Frances, Zhen Zhao, Dong Li, Yuhang Zhang, Stumberger, Romona, Moritz, Brian, Haitao Yang, Hongjun Gao, Devereaux, Thomas Peter, and Hackl, Rudi

Abstract

The formation of charge density waves is a long-standing open problem, particularly in dimensions higher than one. Various observations in the vanadium antimonides discovered recently further underpin this notion. Here, we study the Kagome metal CsV3Sb5 using polarized inelastic light scattering and density functional theory calculations. We observe a significant gap anisotropy with 2Δmax=kBTCDW ≈ 20, far beyond the prediction of mean-field theory. The analysis of the A1g and E2g phonons, including those emerging below TCDW, indicates strong phonon-phonon coupling, presumably mediated by a strong electron-phonon interaction. Similarly, the asymmetric Fano-type lineshape of the A1g amplitude mode suggests strong electron-phonon coupling below TCDW. The large electronic gap, the enhanced anharmonic phonon-phonon coupling, and the Fano shape of the amplitude mode combined are more supportive of a strong-coupling phonon-driven charge density wave transition than of a Fermi surface instability or an exotic mechanism in CsV3Sb5. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Suppression of Superconductivity and Nematic Order in Fe1–ySe1–xSx (0 ≤ x ≤ 1; y ≤ 0.1) Crystals by Anion Height Disorder

Author

Wang, Aifeng, primary, Milosavljevic, Ana, additional, Abeykoon, A. M. Milinda, additional, Ivanovski, Valentin, additional, Du, Qianheng, additional, Baum, Andreas, additional, Stavitski, Eli, additional, Liu, Yu, additional, Lazarevic, Nenad, additional, Attenkofer, Klaus, additional, Hackl, Rudi, additional, Popovic, Zoran, additional, and Petrovic, Cedomir, additional

Published
2022
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10. Suppression of Superconductivity and Nematic Order in Fe1–ySe1–xSx (0 ≤ x ≤ 1; y ≤ 0.1) Crystals by Anion Height Disorder

Author

Wang, Aifeng, Milosavljević, Ana, Abeykoon, A. M. Milinda, Ivanovski, Valentin N., Du, Qianheng, Baum, Andreas, Stavitski, Eli, Liu, Yu, Lazarević, Nenad, Attenkofer, Klaus, Hackl, Rudi, Popović, Zoran, Petrović, Čedomir, Wang, Aifeng, Milosavljević, Ana, Abeykoon, A. M. Milinda, Ivanovski, Valentin N., Du, Qianheng, Baum, Andreas, Stavitski, Eli, Liu, Yu, Lazarević, Nenad, Attenkofer, Klaus, Hackl, Rudi, Popović, Zoran, and Petrović, Čedomir

Abstract

Connections between crystal chemistry and critical temperature Tc have been in the focus of superconductivity, one of the most widely studied phenomena in physics, chemistry, and materials science alike. In most Fe-based superconductors, materials chemistry and physics conspire so that Tc correlates with the average anion height above the Fe plane, i.e., with the geometry of the FeAs4 or FeCh4 (Ch = Te, Se, or S) tetrahedron. By synthesizing Fe1–ySe1–xSx (0 ≤ x ≤ 1; y ≤ 0.1), we find that in alloyed crystals Tc is not correlated with the anion height like it is for most other Fe superconductors. Instead, changes in Tc(x) and tetragonal-to-orthorhombic (nematic) transition Ts(x) upon cooling are correlated with disorder in Fe vibrations in the direction orthogonal to Fe planes, along the crystallographic c-axis. The disorder stems from the random nature of S substitution, causing deformed Fe(Se,S)4 tetrahedra with different Fe–Se and Fe–S bond distances. Our results provide evidence of Tc and Ts suppression by disorder in anion height. The connection to local crystal chemistry may be exploited in computational prediction of new superconducting materials with FeSe/S building blocks.

Published
2022

12. Phonon Anomalies Associated with Spin Reorientation in the Kagome Ferromagnet Fe3Sn2.

Author

He, Ge, Peis, Leander, Stumberger, Ramona, Prodan, Lilian, Tsurkan, Vladimir, Unglert, Nico, Chioncel, Liviu, Kézsmárki, István, and Hackl, Rudi

Subjects
NUCLEAR spin, PHONONS, FERROMAGNETIC materials, LIGHT scattering, POLARONS, RAMAN scattering
Abstract

Polarization‐ and temperature‐dependent Raman data along with theoretical simulations are presented for the Kagome ferromagnet Fe3Sn2. Eight out of nine expected phonon modes are identified. The experimental energies compare well with those from the simulations. The analysis of the line widths indicates relatively strong phonon–phonon coupling in the range 0.1–1. The temperature‐dependent frequencies of three A1g modes show weak anomalies at ≈100 K. In contrast, the linewidths of all phonon modes follow the conventional exponential broadening up to room temperature except for the softest A1g mode, whose width exhibits a kink close to 100 K and becomes nearly constant for T>100 K. These features are indicative of a spin reorientation taking place in the temperature range above 100 K, which might arise from spin–phonon coupling. The low‐energy part of the electronic continuum in Eg symmetry depends strongly on temperature. The possible reasons include particle–hole excitation tracking the resistivity, a spin‐dependent gap, or spin fluctuations. [ABSTRACT FROM AUTHOR]

Published
2022
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13. Suppression of Superconductivity and Nematic Order in Fe1–ySe1–xSx(0 ≤ x≤ 1; y≤ 0.1) Crystals by Anion Height Disorder

Author

Wang, Aifeng, Milosavljevic, Ana, Abeykoon, A. M. Milinda, Ivanovski, Valentin, Du, Qianheng, Baum, Andreas, Stavitski, Eli, Liu, Yu, Lazarevic, Nenad, Attenkofer, Klaus, Hackl, Rudi, Popovic, Zoran, and Petrovic, Cedomir

Abstract

Connections between crystal chemistry and critical temperature Tchave been in the focus of superconductivity, one of the most widely studied phenomena in physics, chemistry, and materials science alike. In most Fe-based superconductors, materials chemistry and physics conspire so that Tccorrelates with the average anion height above the Fe plane, i.e., with the geometry of the FeAs4or FeCh4(Ch = Te, Se, or S) tetrahedron. By synthesizing Fe1–ySe1–xSx(0 ≤ x≤ 1; y≤ 0.1), we find that in alloyed crystals Tcis not correlated with the anion height like it is for most other Fe superconductors. Instead, changes in Tc(x) and tetragonal-to-orthorhombic (nematic) transition Ts(x) upon cooling are correlated with disorder in Fe vibrations in the direction orthogonal to Fe planes, along the crystallographic c-axis. The disorder stems from the random nature of S substitution, causing deformed Fe(Se,S)4tetrahedra with different Fe–Se and Fe–S bond distances. Our results provide evidence of Tcand Tssuppression by disorder in anion height. The connection to local crystal chemistry may be exploited in computational prediction of new superconducting materials with FeSe/S building blocks.

Published
2022
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