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38 results on '"Seibold, Götz"'

1. Revealing novel aspects of light-matter coupling in terahertz two-dimensional coherent spectroscopy: the case of the amplitude mode in superconductors

Author

Katsumi, Kota, Fiore, Jacopo, Udina, Mattia, Romero III, Ralph, Barbalas, David, Jesudasan, John, Raychaudhuri, Pratap, Seibold, Goetz, Benfatto, Lara, and Armitage, N. P.

Subjects
Condensed Matter - Superconductivity
Abstract

Recently developed terahertz (THz) two-dimensional coherent spectroscopy (2DCS) is a powerful technique to obtain materials information in a fashion qualitatively different from other spectroscopies. Here, we utilized THz 2DCS to investigate the THz nonlinear response of conventional superconductor NbN. Using broad-band THz pulses as light sources, we observed a third-order nonlinear signal whose spectral components are peaked at twice the superconducting gap energy $2\Delta$. With narrow-band THz pulses, a THz nonlinear signal was identified at the driving frequency $\Omega$ and exhibited a resonant enhancement at temperature when $\Omega = 2\Delta$. General theoretical considerations show that such a resonance can only arise from a disorder-activated paramagnetic coupling between the light and the electronic current. This proves that the nonlinear THz response can access processes distinct from the diamagnetic Raman-like density fluctuations, which are believed to dominate the nonlinear response at optical frequencies in metals. Our numerical simulations reveal that even for a small amount of disorder, the $\Omega=2\Delta$ resonance is dominated by the superconducting amplitude mode over the entire investigated disorder range. This is in contrast to other resonances, whose amplitude-mode contribution depends on disorder. Our findings demonstrate the unique ability of THz 2DCS to explore collective excitations inaccessible in other spectroscopies.

Published
2023
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2. Manipulating Plasma Excitations with Terahertz Light Pulses in Superconducting Cuprates

Author

Fiore, Jacopo, Sellati, Niccolò, Gabriele, Francesco, Castellani, Claudio, Seibold, Goetz, Udina, Mattia, and Benfatto, Lara

Subjects
Condensed Matter - Superconductivity
Abstract

Layered cuprates offer a preferential playground for optical non-linearity thanks to the emergence, below Tc, of soft out-of-plane Josephson plasmons. The hallmark of such a non-linearity is the observation of Third Harmonic Generation, that has been theoretically understood as a sum-frequency process involving a two-plasmon excitation. However, recent experiments in cuprates with two planes per unit cell challenge this interpretation, due to the lack of resonant response at the temperature where the driving frequency matches the plasma energy scale, as observed instead in single-layer cuprates. Here we show that such an apparent discrepancy in bilayer systems can be resolved by taking into account the combined effect of light polarization and Josephson-coupling anisotropy on setting the energy range where three-dimensional layered plasma modes can be resonantly excited. Our results offer a novel perspective on the possibility to tune on demand high-harmonic generation by artificially designing Josephson heterostructures.

Published
2023
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4. Contribution of Collective Excitations to Third Harmonic Generation in Multiband Superconductors: the case of MgB$_2$

Author

Fiore, Jacopo, Udina, Mattia, Marciani, Marco, Seibold, Goetz, and Benfatto, Lara

Subjects
Condensed Matter - Superconductivity
Abstract

Multiband superconductors can host collective excitations with marked differences with respect to their single-band counterpart. We first study the spectrum of collective amplitude fluctuations in a clean two-bands superconductor, showing that the spectral weight of the Higgs mode rapidly deviates from the naive extension of the single band case as the interband coupling is turned on. These results are then used to critically analyze the non-linear optical response in MgB$_2$, providing an explanation for the apparently contradictory results of recent experiments, pointing towards a selective relevance either of the Leggett mode or of the amplitude fluctuations at twice the lower gap. By using exact numerical simulations and realistic estimate of disorder we compute the relative contribution of the quasiparticle, amplitude and phase fluctuations to the non-linear optical response. We show that at low pumping frequency only the resonance at twice the smaller gap emerges, as due to the BCS response, while the Leggett mode dominates only in a narrow range of higher pumping frequencies matching its low-temperature value. Our findings provide a fresh perspective on the potential of non-linear THz spectroscopy to detect collective modes in other multiband systems, as e.g. iron-based superconductors.

Published
2022
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5. THz non-linear optical response in cuprates: predominance of the BCS response over the Higgs mode

Author

Udina, Mattia, Fiore, Jacopo, Cea, Tommaso, Castellani, Claudio, Seibold, Goetz, and Benfatto, Lara

Subjects
Condensed Matter - Superconductivity
Abstract

Recent experiments with strong THz fields in unconventional cuprates superconductors have clearly evidenced an increase of the non-linear optical response below the superconducting critical temperature Tc. As in the case of conventional superconductors, a theoretical estimate of the various effects contributing to the non-linear response is needed in order to interpret the experimental findings. Here we report a detailed quantitative analysis of the non-linear THz optical kernel in cuprates within a realistic model, accounting for the band structure and disorder level appropriate for these systems. We show that the BCS quasiparticle response is the dominant contribution for cuprates, and its polarization dependence accounts very well for the third-harmonic generation measurements. On the other hand, the polarization dependence of the THz Kerr effect is only partly captured by our calculations, suggesting the presence of additional effects when the system is probed using light pulses with different central frequencies., Comment: Paper selected for "From optical to THz control of materials Faraday Discussion" (23 - 25 May 2022, London, United Kingdom). Link: https://www.rsc.org/events/detail/40608/from-optical-to-thz-control-of-materials-faraday-discussion

Published
2022
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7. Theory of charge-spin conversion at oxide interfaces: The inverse spin-galvanic effect

Author

Seibold, Goetz, Caprara, Sergio, and Raimondi, Roberto

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We evaluate the non-equilibrium spin polarization induced by an applied electric field for a tight-binding model of electron states at oxides interfaces in LAO/STO heterostructures. By a combination of analytic and numerical approaches we investigate how the spin texture of the electron eigenstates due to the interplay of spin-orbit coupling and inversion asymmetry determines the sign of the induced spin polarization as a function of the chemical potential or band filling, both in the absence and presence of local disorder. With the latter, we find that the induced spin polarization evolves from a non monotonous behavior at zero temperature to a monotonous one at higher temperature. Our results may provide a sound framework for the interpretation of recent experiments., Comment: Submitted to Proceedings of SPIE Nanoscience + Engineering 2018, Spintronics XI, 23 pages, 9 figures

Published
2018

8. Phase separation and proximity effects in itinerant ferromagnet-superconductor heterostructures

Author

Martens, Christian, Bill, Andreas, and Seibold, Götz

Subjects
Condensed Matter - Superconductivity
Abstract

Heterostructures made of itinerant ferromagnets and superconductors are studied. In contrast to most previous models, ferromagnetism is not enforced as an external Zeeman field but induced in a correlated single-band model (CSBM) that displays itinerant ferromagnetism as a mean-field ground state. This allows us to investigate the influence of an adjacent superconducting layer on the properties of the ferromagnet in a self-consistent Bogoliubov-de Gennes approach. The CSBM displays a variety features not present in the Zeeman exchange model that influence the behavior of order parameters close to the interface, as e.g. phase separation and the competition between magnetism and superconducting orders., Comment: 10 pages, 7 figures

Published
2018
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10. Charge and pairing dynamics in the attractive Hubbard model: mode coupling and the validity of linear-response theory

Author

Bünemann, Jörg and Seibold, Götz

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Pump-probe experiments have turned out as a powerful tool in order to study the dynamics of competing orders in a large variety of materials. The corresponding analysis of the data often relies on standard linear-response theory generalized to non-equilibrium situations. Here we examine the validity of such an approach within the attractive Hubbard model for which the dynamics of pairing and charge-density wave orders is computed using the time-dependent Hartree-Fock approximation (TDHF). Our calculations reveal that the `linear-response assumption' is justified for small to moderate non-equilibrium situations (i.e., pump pulses) when the symmetry of the pump-induced state differs from that of the external field. This is the case, when we consider the pairing response in a charge-ordered state or the charge-order response in a superconducting state. The situation is very different when the non-equilibrium state and the external probe field have the same symmetry. In this case, we observe significant changes of the response in magnitude but also due to mode coupling when moving away from an equilibrium state, indicating the failure of the linear-response assumption., Comment: 18 pages, 19 figures

Published
2017
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12. Intrinsic spin Hall effect in systems with striped spin-orbit coupling

Author

Seibold, Goetz, Caprara, Sergio, Grilli, Marco, and Raimondi, Roberto

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The Rashba spin-orbit coupling arising from structure inversion asymmetry couples spin and momentum degrees of freedom providing a suitable (and very intensively investigated) environment for spintronic effects and devices. Here we show that in the presence of strong disorder, non-homogeneity in the spin-orbit coupling gives rise to a finite spin Hall conductivity in contrast with the corresponding case of a homogeneous linear spin-orbit coupling. In particular, we examine the inhomogeneity arising from a striped structure for a two-dimensional electron gas, affecting both density and Rashba spin-orbit coupling. We suggest that this situation can be realized at oxide interfaces with periodic top gating., Comment: 9 pages, 8 figures

Published
2015
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14. Income Tax Evasion Dynamics: Evidence from an Agent-based Econophysics Model

Author

Pickhardt, Michael and Seibold, Goetz

Subjects
Physics - Physics and Society, Quantitative Finance - Statistical Finance
Abstract

We analyze income tax evasion dynamics in a standard model of statistical mechanics, the Ising model of ferromagnetism. However, in contrast to previous research, we use an inhomogeneous multi-dimensional Ising model where the local degrees of freedom (agents) are subject to a specific social temperature and coupled to external fields which govern their social behavior. This new modeling frame allows for analyzing large societies of four different and interacting agent types. As a second novelty, our model may reproduce results from agent-based models that incorporate standard Allingham and Sandmo tax evasion features as well as results from existing two-dimensional Ising based tax evasion models. We then use our model for analyzing income tax evasion dynamics under different enforcement scenarios and point to some policy implications., Comment: 24 pages, 8 figures

Published
2011

15. The Shrinking Fermi Liquid Scenario for Strange-Metal Behavior from Overdamped Optical Phonons.

Author

Mirarchi, Giovanni, Grilli, Marco, Seibold, Götz, and Caprara, Sergio

Subjects
FERMI liquids, PHONONS, HIGH temperature superconductors, OPTICAL properties, LOW temperatures
Abstract

We discuss how the interaction of electrons with an overdamped optical phonon can give rise to a strange-metal behavior over extended temperature and frequency ranges. Although the mode has a finite frequency, an increasing damping shifts spectral weight to progressively lower energies so that despite the ultimate Fermi liquid character of the system at the lowest temperatures and frequencies, the transport and optical properties of the electron system mimic a marginal Fermi liquid behavior. Within this shrinking Fermi liquid scenario, we extensively investigate the electron self-energy in all frequency and temperature ranges, emphasizing similarities and differences with respect to the marginal Fermi liquid scenario. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Electronic Phase Separation and Electron–Phonon Coupling in Cuprate Superconductors

Author

Bill, Andreas, Hizhnyakov, Vladimir, Seibold, Götz, Hull, Robert, Series editor, Jagadish, Chennupati, Series editor, Kawazoe, Yoshiyuki, Series editor, Osgood, Richard M., Series editor, Parisi, Jürgen, Series editor, Seong, Tae-Yeon, Series editor, Uchida, Shin-ichi, Series editor, Wang, Zhiming M., Series editor, Bussmann-Holder, Annette, editor, Keller, Hugo, editor, and Bianconi, Antonio, editor

Published
2017
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26. Restored strange metal phase through suppression of charge density waves in underdoped YBa 2 Cu 3 O 7–δ

Author

Wahlberg, Eric, primary, Arpaia, Riccardo, additional, Seibold, Götz, additional, Rossi, Matteo, additional, Fumagalli, Roberto, additional, Trabaldo, Edoardo, additional, Brookes, Nicholas B., additional, Braicovich, Lucio, additional, Caprara, Sergio, additional, Gran, Ulf, additional, Ghiringhelli, Giacomo, additional, Bauch, Thilo, additional, and Lombardi, Floriana, additional

Published
2021
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35. Tax Compliance and Public Goods Provision An Agent-based Econophysics Approach.

Author

Hokamp, Sascha and Seibold, Götz

Subjects
TAXPAYER compliance, TAX enforcement, TAX collection, TAX returns, COMPLIANCE auditing
Abstract

We calculate the dynamics of tax evasion within a multi-agent econophysics model which is adopted from the theory of magnetism and previously has been shown to capture the main characteristics from agent-based based models which build on the standard Allingham and Sandmo approach. In particular, we implement a feedback of public goods provision on the decision-making of selfish agents which aim to pursue their self interest. Our results imply that such a feedback enhances the moral attitude of selfish agents thus reducing the percentage of tax evasion. Two parameters govern the behavior of selfish agents, (i) the rate of adaption to changes in public goods provision and (ii) the threshold of perception of public goods provision. Furtheron we analyze the tax evasion dynamics for different agent compositions and under the feedback of public goods provision. We conclude that policymakers may enhance tax compliance behavior via the threshold of perception by means of targeted public relations. [ABSTRACT FROM AUTHOR]

Published
2014

36. Studying Styles and Sensory Preferences of Technical Students.

Author

Kozielska, Maria and Seibold, Götz

Subjects
TECHNOLOGY education, LEARNING, EDUCATION, RESEARCH, SENSE organs
Abstract

The presented research has solved the following problem: are dominant studying styles applied by students for learning purposes correlated with the sensory system preferred by them? In order to find the answer to the above question, research was conducted among technical students of eight Polish and German universities. The dominant studying styles applied by students for learning purposes have a statistically strong correlation with the sensory system preferred by them. [ABSTRACT FROM AUTHOR]

Published
2011

37. Theory of charge-spin conversion at oxide interfaces: The inverse spin-galvanic effect

Author

Götz Seibold, Roberto Raimondi, Sergio Caprara, Razeghi, Manijeh, Seibold, Götz, Caprara, Sergio, and Raimondi, Roberto

Subjects
Physics, Condensed matter physics, Spin polarization, Condensed Matter - Mesoscale and Nanoscale Physics, Electronic, Optical and Magnetic Material, media_common.quotation_subject, Oxide, FOS: Physical sciences, Inverse, Computer Science Applications1707 Computer Vision and Pattern Recognition, Heterojunction, Condensed Matter Physic, Spin–orbit interaction, Electron, Asymmetry, Applied Mathematic, chemistry.chemical_compound, chemistry, Electric field, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), spin-charge conversion, Spin-orbit coupling, Electrical and Electronic Engineering, oxides interface, media_common
Abstract

We evaluate the non-equilibrium spin polarization induced by an applied electric field for a tight-binding model of electron states at oxides interfaces in LAO/STO heterostructures. By a combination of analytic and numerical approaches we investigate how the spin texture of the electron eigenstates due to the interplay of spin-orbit coupling and inversion asymmetry determines the sign of the induced spin polarization as a function of the chemical potential or band filling, both in the absence and presence of local disorder. With the latter, we find that the induced spin polarization evolves from a non monotonous behavior at zero temperature to a monotonous one at higher temperature. Our results may provide a sound framework for the interpretation of recent experiments., Submitted to Proceedings of SPIE Nanoscience + Engineering 2018, Spintronics XI, 23 pages, 9 figures

Published
2018

38. On the Evaluation of the Spin Galvanic Effect in Lattice Models with Rashba Spin-Orbit Coupling

Author

Marco Grilli, Götz Seibold, Roberto Raimondi, Sergio Caprara, Seibold, Götz, Caprara, Sergio, Grilli, Marco, and Raimondi, Roberto

Subjects
Physics, spintronics, Spintronics, Condensed matter physics, Spin polarization, Charge current, Energy conversion efficiency, Spin–orbit interaction, Condensed Matter Physics, lcsh:QC1-999, Electronic, Optical and Magnetic Materials, spin-galvanic effect, lattice models, Lattice (order), Astrophysics::Solar and Stellar Astrophysics, Born approximation, Galvanic effect, spintronic, lcsh:Physics
Abstract

The spin galvanic effect (SGE) describes the conversion of a non-equilibrium spin polarization into a charge current and has recently attracted renewed interest due to the large conversion efficiency observed in oxide interfaces. An important factor in the SGE theory is disorder which ensures the stationarity of the conversion. Through this paper, we propose a procedure for the evaluation of the SGE on disordered lattices which can also be readily implemented for multiband systems. We demonstrate the performance of the method for a single-band Rashba model and compare our results with those obtained within the self-consistent Born approximation for a continuum model.

Published
2018

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