Your search keyword '"Wawrzyńczak, R."' showing total 22 results

1. Magnetotransport in a graphite cylinder under quantizing fields

Author

Kunchur, N., Galeski, S., Menges, F., Wawrzyńczak, R., Felser, C., Meng, T., and Gooth, J.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter

Abstract

We analyze the transport properties of curved, three-dimensional graphite samples in strong magnetic fields. Focusing on a millimeter-scale graphite cylinder as a prototypical curved object, we perform longitudinal and Hall voltage measurements while applying quantizing magnetic fields. These measurements are investigated as a function of field strength and angles. Most importantly, we find that angle-dependent Shubnikov-de Hass oscillations are superimposed with angle-independent features. Reproducing the experimental observations, we introduce a network model that accounts for the cylindrical geometry effect by conceptualizing the cylinder as composed of strips of planar graphite in an effectively inhomogeneous magnetic field. Our work highlights how the interplay between geometric curvature and quantizing magnetic fields can be leveraged to engineer tunable spatial current densities within solid-state systems, and paves the way for understanding transport properties of curved and bent three-dimensional samples more generally.

Published

2024

2. Importance of the semimetallic state for the quantum Hall effect in HfTe$_{5}$

Author

Piva, M. M., Wawrzyńczak, R., Kumar, Nitesh, Kutelak, L. O., Lombardi, G. A., Reis, R. D. dos, Felser, C., and Nicklas, M.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

At ambient pressure, HfTe$_{5}$ is a material at the boundary between a weak and a strong topological phase, which can be tuned by changes in its crystalline structure or by the application of high magnetic fields. It exhibits a Lifshitz transition upon cooling, and three-dimensional (3D) quantum Hall effect (QHE) plateaus can be observed at low temperatures. Here, we have investigated the electrical transport properties of HfTe$_{5}$ under hydrostatic pressure up to 3 GPa. We find a pressure-induced crossover from a semimetallic phase at low pressures to an insulating phase at about 1.5 GPa. Our data suggest the presence of a pressure-induced Lifshitz transition at low temperatures within the insulating phase around 2 GPa. The quasi-3D QHE is confined to the low-pressure region in the semimetallic phase. This reveals the importance of the semimetallic groundstate for the emergence of the QHE in HfTe$_{5}$ and thus favors a scenario based on a low carrier density metal in the quantum limit for the observed signatures of the quasi-quantized 3D QHE.

Published

2024

3. Giant quantum oscillations in thermal transport in low-density metals via electron absorption of phonons

Author

Bermond, B., Wawrzynczak, R., Zherlitsyn, S., Kotte, T., Helm, T., Gorbunov, D., Gu, G. D., Li, Q., Janasz, F., Meng, T., Menges, F., Felser, C., Wosnitza, J., Grushin, Adolfo G., Carpentier, David, Gooth, J., and Galeski, S.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter, Condensed Matter - Statistical Mechanics

Abstract

Oscillations of conductance observed in strong magnetic fields are a striking manifestation of the quantum dynamics of charge carriers in solids. The large charge carrier density in typical metals sets the scale of oscillations in both electrical and thermal conductivity, which characterize the Fermi surface. In semimetals, thermal transport at low-charge carrier density is expected to be phonon dominated, yet several experiments observe giant quantum oscillations in thermal transport. This raises the question of whether there is an overarching mechanism leading to sizable oscillations that survives in phonon-dominated semimetals. In this work, we show that such a mechanism exists. It relies on the peculiar phase-space allowed for phonon scattering by electrons when only a few Landau levels are filled. Our measurements on the Dirac semimetal ZrTe5 support this counter-intuitive mechanism through observation of pronounced thermal quantum oscillations, since they occur in similar magnitude and phase in directions parallel and transverse to the magnetic field. Our phase-space argument applies to all low-density semimetals, topological or not, including graphene and bismuth. Our work illustrates that phonon absorption can be leveraged to reveal degrees of freedom through their imprint on longitudinal thermal transport.

Published

2024

4. Anomalous Shubnikov-de Haas effect and observation of the Bloch-Gr\'uneisen temperature in the Dirac semimetal ZrTe5

Author

Galeski, S., Araki, K., Forslund, O. K., Wawrzynczak, R., Legg, H. F., Sivakumar, P. K., Miniotaite, U., Elson, F., Månsson, M., Witteveen, C., von Rohr, F. O., Baron, A. Q. R., Ishikawa, D., Li, Q., Gu, G., Zhao, L. X., Zhu, W. L., Chen, G. F., Wang, Y., Parkin, S. S. P., Gorbunov, D., Zherlitsyn, S., Vlaar, B., Nguyen, D. H., Paschen, S., Narang, P., Felser, C., Wosnitza, J., Meng, T., Sassa, Y., Hartnoll, S. A., and Gooth, J.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Quantum Gases

Abstract

Appearance of quantum oscillations (QO) in both thermodynamic and transport properties of metals at low temperatures is the most striking experimental consequence of the existence of a Fermi surface (FS). The frequency of these oscillations and the temperature dependence of their amplitude provides essential information about the FS topology and fermionic quasiparticle properties. Here, we report the observation of an anomalous suppression of the QO amplitude seen in resistivity (Shubnikov de-Haas effect) at sub-kelvin temperatures in ZrTe5 samples with a single small FS sheet comprising less than 5% of the first Brillouin zone. By comparing these results with measurements of the magneto-acoustic QO and the recovery of the usual Lifshitz-Kosevich behavior of the Shubnikov de-Haas (SdH) effect in ZrTe$_5$ samples with a multi-sheet FS, we show that the suppression of the SdH effect originates from a decoupling of the electron liquid from the lattice. On crossing the so-called Bloch-Gr\"uneisen temperature, T$_BG$, electron-phonon scattering becomes strongly suppressed and in the absence of Umklapp scattering the electronic liquid regains Galilean invariance. In addition, we show, using a combination of zero-field electrical conductivity and ultrasonic-absorption measurements, that entering this regime leads to an abrupt increase of electronic viscosity.

Published

2023

5. New applications for the world's smallest high-precision capacitance dilatometer and its stress-implementing counterpart

Author

Kuchler, R., Wawrzynczak, R., Dawczak-Debicki, H., Gooth, J., and Galeski, S.

Subjects

Physics - Instrumentation and Detectors, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons, Physics - Applied Physics

Abstract

We introduce a new stress dilatometer with exactly the same size and weight as the world's smallest miniature capacitance dilatometer (height x width x depth = 15 mmx14 mmx15 mm, weight: 12 g). To develop this new device, only a single part of the most recently developed mini-dilatometer, the so-called 'body', needs to be replaced. Therefore, the new mini dilatometer with an interchangeable body can be used for high-resolution measurements of thermal expansion and magnetostriction with and without large stress. We also report two novel applications of both mini-dilatometer cell types. Our new setup was installed for the first time in a cryogen-free system (PPMS DynaCool). The first new setup allows the rotation of both dilatometers in situ at any angle between -90 deg > {\mu} > +90 deg in the temperature range from 320 K to 1.8 K. We also installed our mini-cells in a dilution refrigerator insert of a PPMS DynaCool, in which dilatometric measurements are now possible in the temperature range from 4 K to 0.06 K. Because of the limited sample space, such measurements could not be performed so far. For both new applications, we can resolve the impressive length changes to 0.01 A., Comment: New applications for the world's smallest high-precision capacitance dilatometer and its stress-implementing counterpart

Published

2023

6. Signatures of a magnetic-field-induced Lifshitz transition in the ultra-quantum limit of the topological semimetal ZrTe$_5$

Author

Galeski, S., Legg, H. F., Wawrzyńczak, R., Förster, T., Zherlitsyn, S., Gorbunov, D., Lozano, P. M., Li, Q., Gu, G. D., Felser, C., Wosnitza, J., Meng, T., and Gooth, J

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter

Abstract

The quantum limit (QL) of an electron liquid, realised at strong magnetic fields, has long been proposed to host a wealth of strongly correlated states of matter. Electronic states in the QL are, for example, quasi-one dimensional (1D), which implies perfectly nested Fermi surfaces prone to instabilities. Whereas the QL typically requires unreachably strong magnetic fields, the topological semimetal ZrTe$_5$ has been shown to reach the QL at fields of only a few Tesla. Here, we characterize the QL of ZrTe$_5$ at fields up to 64 T by a combination of electrical-transport and ultrasound measurements. We find that the Zeeman effect in ZrTe$_5$ enables an efficient tuning of the 1D Landau band structure with magnetic field. This results in a Lifshitz transition to a 1D Weyl regime in which perfect charge neutrality can be achieved. Since no instability-driven phase transitions destabilise the 1D electron liquid for the investigated field strengths and temperatures, our analysis establishes ZrTe$_5$ as a thoroughly understood platform for potentially inducing more exotic interaction-driven phases at lower temperatures.

Published

2022

7. Unconventional Hall response in the quantum limit of HfTe5

Author

Galeski, S., Zhao, X., Wawrzyńczak, R., Meng, T., Förster, T., Lozano, P. M., Honnali, S., Lamba, N., Ehmcke, T., Markou, A., Li, Q., Gu, G., Zhu, W., Wosnitza, J., Felser, C., Chen, G. F., and Gooth, J.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Interacting electrons confined to their lowest Landau level in a high magnetic field can form a variety of correlated states, some of which manifest themselves in a Hall effect. Although such states have been predicted to occur in three dimensional semimetals, a corresponding Hall response has not yet been experimentally observed. Here, we report the observation of an unconventional Hall response in the quantum limit of the bulk semimetal HfTe5, adjacent to the three-dimensional quantum Hall effect of a single electron band at low magnetic fields. The additional plateau-like feature in the Hall conductivity of the lowest Landau level is accompanied by a Shubnikov-de Haas minimum in the longitudinal electrical resistivity and its magnitude relates as 3/5 to the height of the last plateau of the three-dimensional quantum Hall effect. Our findings are consistent with strong electron-electron interactions, stabilizing an unconventional variant of the Hall effect in a three-dimensional material in the quantum limit., Comment: 26 pages with 4 figures

Published

2020

8. Magnetic order and single-ion anisotropy in Tb$_3$Ga$_5$O$_{12}$

Author

Wawrzyńczak, R., Tomasello, B., Manuel, P., Khalyavin, D., Le, M. D., Guidi, T., Cervellino, A., Ziman, T., Boehm, M., Nilsen, G. J., and Fennell, T.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Terbium gallium garnet (TGG), Tb$_3$Ga$_5$O$_{12}$, is well known for its applications in laser optics, but also exhibits complex low-temperature magnetism that is not yet fully understood. Its low-temperature magnetic order is determined by means of time-of-flight neutron powder diffraction. It is found to be a multiaxial antiferromagnet with magnetic Tb$^{3+}$ ions forming six sublattices of magnetic moments aligned parallel and anti-parallel to the $\langle100\rangle$ crystallographic directions of the cubic unit cell. The structure displays strong easy-axis anisotropy with respect to a two-fold axis of symmetry in the local orthorhombic environment of the Tb$^{3+}$ sites. The crystal-field splitting within the single-ion ground-state manifold is investigated by inelastic neutron scattering on powder samples. A strong temperature dependence of the quasidoublet ground-state is observed and revised parameters of the crystal-field Hamiltonian are given. The results of bulk magnetic susceptibility and magnetisation measurements are in good agreement with values based on the crystal-field model down to 20~K, where the onset of magnetic correlations is observed., Comment: 15 pages, 12 figures

Published

2019

9. Quasi-quantized Hall response in bulk InAs

Author

Wawrzyńczak, R., Galeski, S., Noky, J., Sun, Y., Felser, C., and Gooth, J.

Published

2022

10. Classical Spin Nematic Transition in LiGa$_{0.95}$In$_{0.05}$Cr$_4$O$_8$

Author

Wawrzyńczak, R., Tanaka, Y., Yoshida, M., Okamoto, Y., Manuel, P., Casati, N., Hiroi, Z., Takigawa, M., and Nilsen, G. J.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present the results of a combined $^7$Li NMR and diffraction study on LiGa$_{0.95}$In$_{0.05}$Cr$_4$O$_8$, a member of LiGa$_{1-x}$In$_{x}$Cr$_4$O$_8$ "breathing" pyrochlore family. Via specific heat and NMR measurements, we find that the complex sequence of first-order transitions observed for $x=0$ is replaced by a single, apparently second-order transition at $T_f=11$ K. Neutron and X-ray diffraction rule out both structural symmetry lowering and magnetic long-range order as the origin of this transition. Instead, reverse Monte Carlo fitting of the magnetic diffuse scattering indicates that the low temperature phase may be described as a collinear spin nematic state, characterized by a quadrupolar order parameter. This state also shows signs of short range order between collinear spin arrangements on tetrahedra, revealed by mapping the reverse Monte Carlo spin configurations onto a three-state color model describing the manifold of nematic states., Comment: 11 pages, 10 figures

Published

2017

11. Importance of the semimetallic state for the quantum Hall effect in HfTe5

Author

Piva, M. M., primary, Wawrzyńczak, R., additional, Kumar, Nitesh, additional, Kutelak, L. O., additional, Lombardi, G. A., additional, dos Reis, R. D., additional, Felser, C., additional, and Nicklas, M., additional

Published

2024

12. Origin of the quasi-quantized Hall effect in ZrTe5

Author

Galeski, S., Ehmcke, T., Wawrzyńczak, R., Lozano, P. M., Cho, K., Sharma, A., Das, S., Küster, F., Sessi, P., Brando, M., Küchler, R., Markou, A., König, M., Swekis, P., Felser, C., Sassa, Y., Li, Q., Gu, G., Zimmermann, M. V., Ivashko, O., Gorbunov, D. I., Zherlitsyn, S., Förster, T., Parkin, S. S. P., Wosnitza, J., Meng, T., and Gooth, J.

Published

2021

13. New applications for the world’s smallest high-precision capacitance dilatometer and its stress-implementing counterpart

Author

Küchler, R., primary, Wawrzyńczak, R., additional, Dawczak-Dębicki, H., additional, Gooth, J., additional, and Galeski, S., additional

Published

2023

14. Signatures of a magnetic-field-induced Lifshitz transition in the ultra-quantum limit of the topological semimetal ZrTe5

Author

Galeski, S., primary, Legg, H. F., additional, Wawrzyńczak, R., additional, Förster, T., additional, Zherlitsyn, S., additional, Gorbunov, D., additional, Uhlarz, M., additional, Lozano, P. M., additional, Li, Q., additional, Gu, G. D., additional, Felser, C., additional, Wosnitza, J., additional, Meng, T., additional, and Gooth, J., additional

Published

2022

15. Noncollinear magnetic order in epitaxial thin films of the centrosymmetric MnPtGa hard magnet

Author

Ibarra, R., primary, Lesne, E., additional, Ouladdiaf, B., additional, Beauvois, K., additional, Sukhanov, A. S., additional, Wawrzyńczak, R., additional, Schnelle, W., additional, Devishvili, A., additional, Inosov, D. S., additional, Felser, C., additional, and Markou, A., additional

Published

2022

16. Unconventional Hall response in the quantum limit of HfTe5

Author

Galeski, S., primary, Zhao, X., additional, Wawrzyńczak, R., additional, Meng, T., additional, Förster, T., additional, Lozano, P. M., additional, Honnali, S., additional, Lamba, N., additional, Ehmcke, T., additional, Markou, A., additional, Li., Q., additional, Gu, G., additional, Zhu, W., additional, Wosnitza, J., additional, Felser, C., additional, Chen, G. F., additional, and Gooth, J., additional

Published

2020

17. Magnetic order and single-ion anisotropy in Tb3Ga5O12

Author

Wawrzyńczak, R., primary, Tomasello, B., additional, Manuel, P., additional, Khalyavin, D., additional, Le, M. D., additional, Guidi, T., additional, Cervellino, A., additional, Ziman, T., additional, Boehm, M., additional, Nilsen, G. J., additional, and Fennell, T., additional

Published

2019

18. Classical Spin Nematic Transition in LiGa0.95In0.05Cr4O8

Author

Wawrzyńczak, R., primary, Tanaka, Y., additional, Yoshida, M., additional, Okamoto, Y., additional, Manuel, P., additional, Casati, N., additional, Hiroi, Z., additional, Takigawa, M., additional, and Nilsen, G. J., additional

Published

2017

19. Unconventional Hall response in the quantum limit of HfTe5.

Author

Galeski, S., Zhao, X., Wawrzyńczak, R., Meng, T., Förster, T., Lozano, P. M., Honnali, S., Lamba, N., Ehmcke, T., Markou, A., Li., Q., Gu, G., Zhu, W., Wosnitza, J., Felser, C., Chen, G. F., and Gooth, J.

Subjects

HALL effect, ELECTRON-electron interactions, QUANTUM Hall effect, LANDAU levels, MAGNETIC fields, ELECTRICAL resistivity

Abstract

Interacting electrons confined to their lowest Landau level in a high magnetic field can form a variety of correlated states, some of which manifest themselves in a Hall effect. Although such states have been predicted to occur in three-dimensional semimetals, a corresponding Hall response has not yet been experimentally observed. Here, we report the observation of an unconventional Hall response in the quantum limit of the bulk semimetal HfTe5, adjacent to the three-dimensional quantum Hall effect of a single electron band at low magnetic fields. The additional plateau-like feature in the Hall conductivity of the lowest Landau level is accompanied by a Shubnikov-de Haas minimum in the longitudinal electrical resistivity and its magnitude relates as 3/5 to the height of the last plateau of the three-dimensional quantum Hall effect. Our findings are consistent with strong electron-electron interactions, stabilizing an unconventional variant of the Hall effect in a three-dimensional material in the quantum limit. There is a long-standing experimental effort to observe field-induced correlated states in three-dimensional materials. Here, the authors observe an unconventional Hall response in the quantum limit of the bulk semimetal HfTe5 with a plateau-like feature in the Hall conductivity. [ABSTRACT FROM AUTHOR]

Published

2020

20. Classical Spin Nematic Transition in LiGa0.95In0.05Cr4O8.

Author

Wawrzyńczak, R., Tanaka, Y., Yoshida, M., Okamoto, Y., Manuel, P., Casati, N., Hiroi, Z., Takigawa, M., and Nilsen, G. J.

Subjects

*LITHIUM compounds, *SPIN crossover, *X-ray diffraction

Abstract

We present the results of a combined 7Li-NMR and diffraction study on LiGa0.95In0.05Cr4O8, a member of the LiGa1-xInxCr4O8 "breathing" pyrochlore family. Via specific heat and NMR measurements, we find that the complex sequence of first-order transitions observed for LiGaCr4O8 is replaced by a single second-order transition at Tf=11 K. Neutron and x-ray diffraction rule out both structural symmetry lowering and magnetic long-range order as the origin of this transition. Instead, reverse Monte Carlo fitting of the magnetic diffuse scattering indicates that the low-temperature phase may be described as a collinear spin nematic state, characterized by a quadrupolar order parameter. This state also shows signs of short-range order between collinear spin arrangements on tetrahedra, revealed by mapping the reverse Monte Carlo spin configurations onto a three-state color model. [ABSTRACT FROM AUTHOR]

Published

2017

21. Disorder-Induced Magnetotransport Anomalies in Amorphous and Textured Co 1- x Si x Semimetal Thin Films.

Author

Molinari A, Balduini F, Rocchino L, Wawrzyńczak R, Sousa M, Bui H, Lavoie C, Stanic V, Jordan-Sweet J, Hopstaken M, Tchoumakov S, Franca S, Gooth J, Fratini S, Grushin AG, Zota C, Gotsmann B, and Schmid H

Abstract

In recent times the chiral semimetal cobalt monosilicide (CoSi) has emerged as a prototypical, nearly ideal topological conductor hosting giant, topologically protected Fermi arcs. Exotic topological quantum properties have already been identified in CoSi bulk single crystals. However, CoSi is also known for being prone to intrinsic disorder and inhomogeneities, which, despite topological protection, risk jeopardizing its topological transport features. Alternatively, topology may be stabilized by disorder, suggesting the tantalizing possibility of an amorphous variant of a topological metal, yet to be discovered. In this respect, understanding how microstructure and stoichiometry affect magnetotransport properties is of pivotal importance, particularly in case of low-dimensional CoSi thin films and devices. Here we comprehensively investigate the magnetotransport and magnetic properties of ≈25 nm Co 1- x Si x thin films grown on a MgO substrate with controlled film microstructure (amorphous vs textured) and chemical composition (0.40 < x < 0.60). The resistivity of Co 1- x Si x thin films is nearly insensitive to the film microstructure and displays a progressive evolution from metallic-like (dρ xx /d T > 0) to semiconducting-like (dρ xx /d T < 0) regimes of conduction upon increasing the silicon content. A variety of anomalies in the magnetotransport properties, comprising for instance signatures consistent with quantum localization and electron-electron interactions, anomalous Hall and Kondo effects, and the occurrence of magnetic exchange interactions, are attributable to the prominent influence of intrinsic structural and chemical disorder. Our systematic survey brings to attention the complexity and the challenges involved in the prospective exploitation of the topological chiral semimetal CoSi in nanoscale thin films and devices., Competing Interests: The authors declare no competing financial interest., (© 2023 The Authors. Published by American Chemical Society.)

Published

2023

22. [Repeat angioplasty of the left anterior descending coronary artery due to restenosis. How many times could we do it?].

Author

Derkacz A, Jerzyk K, Wawrzyńczak R, Bezubka J, Janiak B, and Szełemej R

Subjects

Aged, Coronary Restenosis therapy, Female, Humans, Recurrence, Reoperation, Treatment Outcome, Acute Coronary Syndrome therapy, Angioplasty, Balloon, Coronary, Coronary Restenosis prevention & control

Abstract

Coronary angioplasty is widely accepted method of myocardium revascularisation. Repeat restenosis is often an indication for surgical treatment. Unfortunately, some patients are not treated surgically for various reasons. This leads to major therapeutic problems. We present a case of a 79-year-old female with repeat angioplasty done 6 times to the left anterior descending artery due to acute coronary syndromes in a 4-year period. The patient did not agree to recommended surgical treatment. We observed gradually deteriorating left ventricular function. The patient finally agreed to surgery, but left ventricle injury added to other clinical problems resulted in disqualification from operation.

Published

2008