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1. A frustrated antipolar phase analogous to classical spin liquids

Author

Bastien, G., Repček, D., Eliáš, A., Kancko, A., Courtade, Q., Haidamak, T., Savinov, M., Bovtun, V., Kempa, M., Carva, K., Vališka, M., Doležal, P., Kratochvílová, M., Barnett, S. A., Proschek, P., Prokleška, J., Kadlec, C., Kužel, P., Colman, R. H., and Kamba, S.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Condensed Matter - Statistical Mechanics
Abstract

The study of magnetic frustration in classical spin systems was motivated by the prediction and discovery of classical spin liquid states. These uncommon magnetic phases are characterized by a massive degeneracy of their ground state implying a finite magnetic entropy at zero temperature. While the classical spin liquid state was originally predicted in the Ising triangular lattice antiferromagnet in 1950, this state has never been experimentally observed in any triangular magnets. We report here the discovery of an electric analogue of classical spin liquids on a triangular lattice of uniaxial electric dipoles in EuAl12O19 . This new type of frustrated antipolar phase is characterized by a highly degenerate state at low temperature implying an absence of long-range antiferroelectric order, despite short-range antipolar correlations. Its dynamics are governed by a thermally activated process, slowing down upon cooling towards a complete freezing at zero temperature.

Published
2024

2. Quantum interference between quasi-2D Fermi surface sheets in UTe2

Author

Weinberger, T. I., Wu, Z., Graf, D. E., Skourski, Y., Cabala, A., Pospisil, J., Prokleska, J., Haidamak, T., Bastien, G., Sechovsky, V., Lonzarich, G. G., Valiska, M., Grosche, F. M., and Eaton, A. G.

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

UTe$_2$ is a spin-triplet superconductor candidate for which high quality samples with long mean free paths have recently become available, enabling quantum oscillation measurements to probe its Fermi surface and effective carrier masses. It has recently been reported that UTe$_2$ possesses a 3D Fermi surface component [Phys. Rev. Lett. 131, 036501 (2023)]. The distinction between 2D and 3D Fermi surface sections in triplet superconductors can have important implications regarding the topological properties of the superconductivity. Here we report the observation of oscillatory components in the magnetoconductance of UTe$_2$ at high magnetic fields. We find that these oscillations are well described by quantum interference between quasiparticles traversing semiclassical trajectories spanning magnetic breakdown networks. Our observations are consistent with a quasi-2D model of this material's Fermi surface based on prior dHvA-effect measurements. Our results strongly indicate that UTe$_2$ -- which exhibits a multitude of complex physical phenomena -- possesses a remarkably simple Fermi surface consisting exclusively of two quasi-2D cylindrical sections.

Published
2023
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3. Enhanced triplet superconductivity in next generation ultraclean UTe2

Author

Wu, Z., Weinberger, T. I., Chen, J., Cabala, A., Chichinadze, D. V., Shaffer, D., Pospisil, J., Prokleska, J., Haidamak, T., Bastien, G., Sechovsky, V., Hickey, A. J., Mancera-Ugarte, M. J., Benjamin, S., Graf, D. E., Skourski, Y., Lonzarich, G. G., Valiska, M., Grosche, F. M., and Eaton, A. G.

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

The unconventional superconductor UTe$_2$ exhibits numerous signatures of spin-triplet superconductivity -- a rare state of matter which could enable quantum computation protected against decoherence. UTe$_2$ possesses a complex phase landscape comprising two magnetic field-induced superconducting phases, a metamagnetic transition to a field-polarised state, along with pair- and charge-density wave orders. However, contradictory reports between studies performed on UTe$_2$ specimens of varying quality have severely impeded theoretical efforts to understand the microscopic origins of the exotic superconductivity. Here, we report a comprehensive suite of high magnetic field measurements on a new generation of pristine quality UTe$_2$ crystals. Our experiments reveal a significantly revised high magnetic field superconducting phase diagram in the ultraclean limit, showing a pronounced sensitivity of field-induced superconductivity to the presence of crystalline disorder. We employ a Ginzburg-Landau model that excellently captures this acute dependence on sample quality. Our results suggest that in close proximity to a field--induced metamagnetic transition the enhanced role of magnetic fluctuations -- that are strongly suppressed by disorder -- is likely responsible for tuning UTe$_2$ between two distinct spin-triplet superconducting phases.

Published
2023
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4. Quasi-2D Fermi surface in the anomalous superconductor UTe2

Author

Eaton, A. G., Weinberger, T. I., Popiel, N. J. M., Wu, Z., Hickey, A. J., Cabala, A., Pospisil, J., Prokleska, J., Haidamak, T., Bastien, G., Opletal, P., Sakai, H., Haga, Y., Nowell, R., Benjamin, S. M., Sechovsky, V., Lonzarich, G. G., Grosche, F. M., and Valiska, M.

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

The heavy fermion paramagnet UTe$_2$ exhibits numerous characteristics of spin-triplet superconductivity. Efforts to understand the microscopic details of this exotic superconductivity have been impeded by uncertainty regarding the underlying electronic structure. Here we directly probe the Fermi surface of UTe$_2$ by measuring magnetic quantum oscillations in pristine quality crystals. We find an angular profile of quantum oscillatory frequency and amplitude that is characteristic of a quasi-2D Fermi surface, which we find is well described by two cylindrical Fermi sheets of electron- and hole-type respectively. Additionally, we find that both cylindrical Fermi sheets possess considerable undulation but negligible small-scale corrugation, which may allow for their near-nesting and therefore promote magnetic fluctuations that enhance the triplet pairing mechanism. Importantly, we find no evidence for the presence of any 3D Fermi surface sections. Our results place strong constraints on the possible symmetry of the superconducting order parameter in UTe$_2$.

Published
2023
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5. Magnetic anisotropy in van-der-Waals ferromagnet VI3

Author

Koriki, A., Misek, M., Pospisil, J., Kratochvilova, M., Carva, K., Prokleska, J., Dolezal, P., Kastil, J., Son, S., Park, J-G., and Sechovsky, V.

Subjects
Condensed Matter - Materials Science
Abstract

A comprehensive study of magnetocrystalline anisotropy of a layered van-der-Waals ferromagnet VI3 was performed. We measured angular dependences of the torque and magnetization with respect to the direction of the applied magnetic field within the "ac" plane perpendicular to and within the basal ab plane, respectively. A two-fold butterfly-like signal was detected by magnetization in the perpendicular "ac" plane. This signal symmetry remains conserved throughout all magnetic regimes as well as through the known structural transition down to the lowest temperatures. The maximum of the magnetization signal and the resulting magnetization easy axis is significantly tilted from the principal c axis by ~40{\deg}. The close relation of the magnetocrystalline anisotropy to the crystal structure was documented. In contrast, a two-fold-like angular signal was detected in the paramagnetic region within the ab plane in the monoclinic phase, which transforms into a six-fold-like signal below the Curie temperature TC. With further cooling, another six-fold-like signal with an angular shift of ~30{\deg} grows approaching TFM. Below TFM, in the triclinic phase, the original six-fold-like signal vanishes, being replaced by a secondary six-fold-like signal with an angular shift of ~30{\deg}., Comment: 14 pages, 10 figures

Published
2021
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6. Magnetoelastic phenomena in antiferromagnetic uranium intermetallics: the $\mathrm{UAu_{2}Si_{2}}$ case

Author

Vališka, M., Saito, H., Yanagisawa, T., Tabata, Ch., Amitsuka, H., Uhlířová, K., Prokleška, J., Proschek, P., Valenta, J., Míšek, M., Gorbunov, D. I., Wosnitza, J., and Sechovský, V.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Thermal expansion, magnetostriction and magnetization measurements under magnetic field and hydrostatic pressure were performed on a $\mathrm{UAu_{2}Si_{2}}$ single crystal. They revealed a large anisotropy of magnetoelastic properties manifested by prominent length changes leading to a collapse of the unit-cell volume accompanied by breaking the fourfold symmetry (similar to that in $\mathrm{URu_{2}Si_{2}}$ in the hidden-order state) in the antiferromagnetic state as consequences of strong magnetoelastic coupling. The magnetostriction curves measured at higher temperatures confirm a bulk character of the 50 K weak ferromagnetic phase. The large positive pressure change of the ordering temperature predicted from Ehrenfest relation contradicts the more than an order of magnitude smaller pressure dependence observed by the magnetization and specific heat measured under hydrostatic pressure. A comprehensive magnetic phase diagram of $\mathrm{UAu_{2}Si_{2}}$ in magnetic field applied along the $c$ axis is presented. The ground-state antiferromagnetic phase is suppressed by a field-induced metamagnetic transition that changes its character from the second to the first order at the tricritical point.

Published
2018
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8. Quantum Interference between Quasi-2D Fermi Surface Sheets in UTe2

Author

Weinberger, T. I., Wu, Z., Graf, D. E., Skourski, Y., Cabala, A., Pospisil, J., Prokleska, J., Haidamak, T., Bastien, G., Sechovsky, V., Lonzarich, G. G., Valiska, M., Grosche, F. M., Eaton, A. G., Weinberger, T. I., Wu, Z., Graf, D. E., Skourski, Y., Cabala, A., Pospisil, J., Prokleska, J., Haidamak, T., Bastien, G., Sechovsky, V., Lonzarich, G. G., Valiska, M., Grosche, F. M., and Eaton, A. G.

Abstract

Ute2 is a spin-triplet superconductor candidate for which high quality samples with long mean free paths have recently become available, enabling quantum oscillation measurements to probe its Fermi surface and effective carrier masses. It has recently been reported that UTe2 possesses a 3D Fermi surface component [Phys. Rev. Lett. 131, 036501 (2023)]. The distinction between 2D and 3D Fermi surface sections in triplet superconductors can have important implications regarding the topological properties of the superconductivity. Here we report the observation of oscillatory components in the magnetoconductance of UTe2 at high magnetic fields.We find that these oscillations are well described by quantum interference between quasiparticles traversing semiclassical trajectories spanning magnetic breakdown networks. Our observations are consistent with a quasi-2D model of this material’s Fermi surface based on prior dHvA-effect measurements. Our results strongly indicate that UTe2—which exhibits a multitude of complex physical phenomena—possesses a remarkably simple Fermi surface consisting exclusively of two quasi-2D cylindrical sections.

Published
2024

9. Ambient Pressure Superconductivity emerging in the Local Moment Antiferromagnetic Phase of Ce$_{3}$PdIn$_{11}$

Author

Kratochvílová, M., Prokleška, J., Uhlířová, K., Dušek, M., Sechovský, V., and Custers, J.

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

We report on magnetization, specific heat and resistivity experiments on single crystals of the novel heavy Fermion compound Ce$_3$PdIn$_{11}$. At ambient pressure the compound exhibits two successive transitions at T$_{1}$ = 1.63 K and T$_{\mathrm {N}}$ = 1.49 K into incommensurate and commensurate local moment antiferromagnetic states, respectively, before becoming superconducting below T$_{\mathrm {c}}$ = 0.42 K. The large values of dB$_{\mathrm {c2}}$/dT and B$_{\mathrm {c2}}$ = 2.8 T imply that heavy quasiparticles form the Cooper pairs. Thus, Ce$_{3}$PdIn$_{11}$ is the first ambient pressure heavy Fermion superconductor where 4f electrons are simultaneously responsible for magnetic order and superconductivity.

Published
2014
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10. Magnetic Phase Diagram of the new Heavy Fermion Compound Ce2PtIn8

Author

Kratochvilova, M., Uhlirova, K., Custers, J., Prokleska, J., and Sechovsky, V.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report on the discovery and investigation of a new 218 heavy fermion compound. Crystals have been synthesized from In-flux. Structurally, Ce2PtIn8 is located between the cubic CeIn3 and the more two-dimensional CeTIn5 (T = transition metal) type of compounds. The weak anisotropy of the paramagnetic susceptibility suggests rather 3D magnetic correlations. Specific heat, electrical resistivity and magnetization measurements revealed that Ce2PtIn8 orders antiferromagnetically below Tn = 2.1 K. An order-to-order transition is observed at Tm = 2 K. Similarities in the H - T phase diagram to other CenTmIn3n+2m (T = Rh, Pt) compounds point to a pressure-induced quantum phase transition (QPT) which, according to the tentative location of Ce2PtIn8 in the recent proposed global phase diagram for QPT, would be of spin density wave type., Comment: recent work on Ce3PdIn11 (arXiv:1403.4363) strongly suggest that the observed magnetic transitions in Ce2PtIn8 likely arise from Ce3PtIn11 inclusions. For this reason the paper has been withdrawn until further studies confirm data presented

Published
2012

11. Physics of Polymorphic Transitions in CeRuSn

Author

Fikáček, J., Prokleška, J., Míšek, M., Custers, J., Daniš, S., Prchal, J., Sechovský, V., and Císařová, I.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report a detailed study of the polymorphic transitions in ternary stannide CeRuSn on high quality single crystals through a combination of X-ray diffraction experiments conducted at 300, 275 and 120 K, and measurements of the thermal expansion, magnetization, and resistivity, along main crystallographic axes. In addition, the transition was followed as a function of pressure up to 0.8 GPa. The present X-ray diffraction data show that the room temperature polymorph consists of the lattice doubled along the c axis with respect to the CeCoAl-type structure consistent with previous reports. Upon cooling, the compound undergoes two successive transitions, first to a quintuple (290 K) and than to a triple CeCoAl superstructure at 225 K. The transitions are accompanied by a tremendous volume change due to a strong shrinking of the lattice along the c axis, which is clearly observed in thermal expansion. We advance arguments that the volume collapse originates from an increasing number of crystallographically inequivalent Ce sites and the change of ratio between the short and long Ce-Ru bonds. The observed properties of the polymorphic transition in CeRuSn are reminiscent of the transition in elementary Cerium, suggesting that similar physics, i.e., a Kondo influenced transition and strong lattice vibrations might be the driving forces.

Published
2012
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12. Samarium Magnetism Studied on SmPd2Al3 Single Crystal

Author

Pospisil, J., Kratochvilova, M., Prokleska, J., Divis, M., and Sechovsky, V.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

In this paper, specific features of Sm magnetism in an intermetallic compound have been studied. For this purpose, a high-quality single crystal of SmPd2Al3 was grown and subjected to detailed measurements of specific heat, magnetization, ac susceptibility, and electrical resistivity with respect to temperature and a magnetic field applied along the principal crystallographic directions. SmPd2Al3 magnetism was found to be strongly anisotropic with the easy-magnetization direction along the c axis where the main magnetic features are concentrated. The a-axis response remains weak, paramagneticlike, even in the magnetically ordered state. Ferromagnetism with TC=12.4 K has been indicated by all the measured physical properties. At lower temperatures, three successive order-order phase transitions have been observed on the temperature dependence of the specific heat as three anomalies: at 3.4, 3.9, and 4.4 K, respectively. The low-temperature magnetization data can be understood within a scenario that considers the antiferromagnetic ground state as being gradually destroyed through a series of four metamagnetic transitions at 0.03, 0.35, 0.5, and 0.75 T, as detected in the 1.8 K magnetization data. The experimental data are discussed together with the results of electronic-structure and crystal-field calculations from first principles, which were performed as an important part of the study for comprehension and explanation of the observed behavior of the SmPd2Al3 compound.

Published
2010
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14. Infrared and THz studies of polar phonons and improper magnetodielectric effect in multiferroic BFO3 ceramics

Author

Kamba, S., Nuzhnyy, D., Savinov, M., Sebek, J., Petzelt, J., Prokleska, J., Haumont, R., and Kreisel, J.

Subjects
Condensed Matter - Materials Science
Abstract

BFO3 ceramics were investigated by means of infrared reflectivity and time domain THz transmission spectroscopy at temperatures 20 - 950 K, and the magnetodielectric effect was studied at 10 - 300 K, with the magnetic field up to 9 T. Below 175 K, the sum of polar phonon contributions into the permittivity corresponds to the value of measured permittivity below 1 MHz. At higher temperatures, a giant low-frequency permittivity was observed, obviously due to the enhanced conductivity and possible Maxwell-Wagner contribution. Above 200 K the observed magnetodielectric effect is caused essentially through the combination of magnetoresistance and the Maxwell-Wagner effect, as recently predicted by Catalan (Appl. Phys. Lett. 88, 102902 (2006)). Since the magnetodielectric effect does not occur due to a coupling of polarization and magnetization as expected in magnetoferroelectrics, we call it improper magnetodielectric effect. Below 175 K the magnetodielectric effect is by several orders of magnitude lower due to the decreased conductivity. Several phonons exhibit gradual softening with increasing temperature, which explains the previously observed high-frequency permittivity increase on heating. The observed non-complete phonon softening seems to be the consequence of the first-order nature of the ferroelectric transition., Comment: subm. to PRB. revised version according to referees' reports

Published
2006
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16. Dielectric ordering of water molecules arranged in a dipolar lattice

Author

Belyanchikov, M. A., Savinov, M., Bedran, Z. V., Bednyakov, P., Proschek, P., Prokleska, J., Abalmasov, V. A., Petzelt, J., Zhukova, E. S., Thomas, V. G., Dudka, A., Zhugayevych, A., Prokhorov, A. S., Anzin, V. B., Kremer, R. K., Fischer, J. K. H., Lunkenheimer, P., Loidl, A., Uykur, E., Dressel, M., and Gorshunov, B.

Published
2020
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19. Anomalous temperature dependence of the effective mass in p-type Bi2Te3

Author

Zelezny, V, Goian, V, Navrátil, Jiří, Drašar, Čestmír, Orlita, M, Piot, B. A, Prokleska, J, Misek, M, Kastil, J, Kamba, S, Zelezny, V, Goian, V, Navrátil, Jiří, Drašar, Čestmír, Orlita, M, Piot, B. A, Prokleska, J, Misek, M, Kastil, J, and Kamba, S

Abstract

Infrared reflectance measurements have been carried on highly p-type Bi2Te3 crystals over the broad temperature range from 10 to 650 K and their response function investigated. An anomalous nonmonotonous temperature dependence of the plasma edge frequency is observed-with a pronounced redshift and blueshift that appear above and below room temperature, respectively. Such behavior is explained in terms of the temperature evolution of the free carrier optical weight N/m* given by particular temperature dependence of the total carrier concentration N (determined by transport measurements) and characteristic (optical) mass m*. The effective mass strongly varies from m* = 0.1m0 (m0 electron rest mass) at 10 K to m* = 0.5m0 respective m* = 0.9m0 at 650 K depending on the evaluating procedure. The interpretation is corroborated by complementary magnetotransport and magnetoreflectivity experiments., Měření Infračervené odrazivosti byla provedena na p-typových monokrystalech Bi2Te3 v širokém teplotním rozmezí od 10 do 650 K a byla zkoumána jejich funkce odezvy. Byla pozorována anomální nemonotónní závislost rezonanční frekvence plazmatu na teplotě - s výrazným červeným posuvem a modrým posuvem, které se objevují nad a pod pokojovou teplotou. Takové chování je vysvětleno v rámci specifických změn poměru N/m* na teplotě díky anomální teplotní závislostí celkové koncentrace volných nopsitelů N (stanovené transportními měřeními) a charakteristickou (optickou) hmotností m*. Efektivní hmotnost se výrazně mění od m* = 0,1m0 (m0 klidová motnost elektronu) při 10 K až k m* = 0,5m0 resp. m* = 0,9m0 při 650 K v závislosti na metodice jejího určení. Interpretace tohoto jevu je potvrzena komplementárními experimenty, tj. magnetotransportem a magnetoreflektivitou.

Published
2022

22. Magnetic anisotropy in the van der Waals ferromagnet VI3

Author

Koriki, A., Misek, M., Pospisil, J., Kratochvilova, M., Carva, K., Prokleska, J., Dolezal, P., Kastil, J., Son, S., Park, J-G, Sechovsky, V, Koriki, A., Misek, M., Pospisil, J., Kratochvilova, M., Carva, K., Prokleska, J., Dolezal, P., Kastil, J., Son, S., Park, J-G, and Sechovsky, V

Abstract

A comprehensive study of magnetocrystalline anisotropy of a layered van der Waals ferromagnet VI3 was performed. We measured angular dependences of the torque and magnetization with respect to the direction of the applied magnetic field within the basal ab plane and a general orthogonal plane to ab, respectively. A twofold butterflylike signal was detected by magnetization in the orthogonal plane. This signal symmetry remains conserved throughout all magnetic regimes as well as through the known structural transition down to the lowest temperatures. The maximum of the magnetization signal and the resulting magnetization easy axis is significantly tilted from the normal to the basal ab plane by similar to 40 degrees. The close relation of the magnetocrystalline anisotropy to the crystal structure was documented. In contrast, a two-fold-like angular signal was detected in the paramagnetic region within the ab plane in the monoclinic phase, which transforms into a six-fold-like signal below the Curie temperature T-c. With further cooling, another six-fold-like signal with an angular shift of similar to 30 degrees grows approaching T-FM. Below T-FM, in the triclinic phase, the original six-fold-like signal vanishes, being replaced by a secondary six-fold-like signal with an angular shift of similar to 30 degrees.

Published
2021

28. Thermoelectric and magnetic properties of Cr-doped single crystal Bi2Se3 - Search for energy filtering

Author

Čermák, Patrik, Ruleová, Pavlína, Holy, V., Prokleska, J., Kucek, Vladimír, Pálka, Karel, Beneš, Ludvík, Drašar, Čestmír, Čermák, Patrik, Ruleová, Pavlína, Holy, V., Prokleska, J., Kucek, Vladimír, Pálka, Karel, Beneš, Ludvík, and Drašar, Čestmír

Abstract

Thermoelectric effects are one of the promising ways to utilize waste heat. Novel approaches have appeared in recent decades aiming to enhance thermoelectric conversion. The theory of energy filtering of free carriers by inclusions is among the latest developed methods. Although the basic idea is clear, experimental evidence of this phenomenon is rare. Based on this concept, we searched suitable systems with stable structures showing energy filtering. Here, we report on the anomalous behavior of Cr-doped single-crystal Bi2Se3 that indicates energy filtering. The solubility of chromium in Bi2Se3 was studied, which is the key parameter in the formation process of inclusions. We present recent results on the effect of Cr-doping on the transport coefficients on a wide set of single crystalline samples. Magnetic measurements were used to corroborate the conclusions drawn from the transport and X-ray measurements., Termoelektrické jevy jsou jednou ze slibných cest k zužitkování odpadního tepla. V posledních dekádách se objevily nové přístupy s cílem zlepšení termoelektrické konverze. Teorie energetického filtrování volných nositelů inkluzemi náleží mezi poslední rozvinuté metody. Ačkoliv je základní idea jasná, experimentální pozorování tohoto fenoménu je řídké. S ohledem na tento koncept jsme tak hledali vhodné systémy se stabilními strukturami, které by vykazovaly energetické filtrování. V článku pojednáváme o anomálním chování monokrystalu Bi2Se3 dopovaného Cr, který naznačuje energetické filtrování. Byla studována rozpustnost chromu v Bi2Se3, která je klíčovým parametrem v procesu tvorby inkluzí. Prezentujeme nové výsledky vlivu dopování Cr na transportní koeficienty na široké sérii monokrystalických vzorků. Magnetických měření bylo užito k podpoře výsledků koncipovaných na základě transportních a RTG měření.

Published
2019

29. Magnetoelastic phenomena in antiferromagnetic uranium intermetallics: The UAu2Si2 case

Author

Valiska, M., Saito, H., Yanagisawa, T., Tabata, C., Amitsuka, H., Uhlirova, K., Prokleska, J., Proschek, P., Valenta, J., Misek, M., Gorbunov, D. I., Wosnitza, J., Sechovsky, V., Valiska, M., Saito, H., Yanagisawa, T., Tabata, C., Amitsuka, H., Uhlirova, K., Prokleska, J., Proschek, P., Valenta, J., Misek, M., Gorbunov, D. I., Wosnitza, J., and Sechovsky, V.

Abstract

Thermal expansion, magnetostriction, and magnetization measurements under magnetic field and hydrostatic pressure were performed on a UAu2Si2 single crystal. They revealed a large anisotropy of magnetoelastic properties manifested by prominent length changes, leading to a collapse of the unit-cell volume accompanied by breaking the fourfold symmetry (similar to that in URu2Si2 in the hidden-order state) in the antiferromagnetic state as consequences of strong magnetoelastic coupling. The magnetostriction curves measured at higher temperatures confirm a bulk character of the 50K weak ferromagnetic phase. The large positive pressure change of the ordering temperature predicted from Ehrenfest relation contradicts the more than an order of magnitude smaller pressure dependence observed by the magnetization and specific heat measured under hydrostatic pressure. A comprehensive magnetic phase diagram of UAu2Si2 in magnetic field applied along the c axis is presented. The ground-state antiferromagnetic phase is suppressed by a field-induced metamagnetic transition that changes its character from second to first order at the tricritical point

Published
2018

30. Electronic properties of a distorted kagome lattice antiferromagnet Dy3Ru4Al12

Author

Gorbunov, D. I., Henriques, M. S., Andreev, A. V., Gukasov, A., Petricek, V., Baranov, N. V., Skourski, Y., Eigner, V., Paukov, M., Prokleska, J., Goncalves, A. P., Gorbunov, D. I., Henriques, M. S., Andreev, A. V., Gukasov, A., Petricek, V., Baranov, N. V., Skourski, Y., Eigner, V., Paukov, M., Prokleska, J., and Goncalves, A. P.

Abstract

Electronic properties of Dy3Ru4Al12 (hexagonal crystal structure, Dy atoms form distorted kagome nets) are studied on a single crystal by means of magnetization, neutron diffraction, specific heat, and resistivity measurements. The onset of a long-range magnetic order of Dy moments occurs at 7 K through a first-order phase transition. The compound has a noncollinear antiferromagnetic structure with a propagation vector (1/2 0 1/2). The configuration of the Dy moments is consistent with the monoclinic Shubnikov group Cc2/c. The gamma coefficient in the temperature linear term of the specific heat is strongly enhanced to 500 mJ mol-1 K-2 taking into account the localized nature of Dy magnetism. An additional contribution originates from spin fluctuations induced in the 4d subsystem of Ru by the exchange field acting from the Dy 4f moments. In an applied magnetic field Dy3Ru4Al12 displays magnetization jumps along all crystallographic directions. All the metamagnetic transitions are accompanied by large positive magnetoresistance. The maximum effect (125%-140%) is attained for current along the [100] axis and field along the [120] or [001] axes. The large positive effect is explained by changes in the conduction electron spectra through the jumps as the conduction electrons interact with localized magnetic moments.

Published
2014

31. Slow spin relaxation induced by magnetic field in [NdCo(bpdo)(H2O)4(CN)6].3H2O

Author

Vrábel, P., Orendác, M., Orendácová, A., Cizmár, E., Tarasenko, R., Zvyagin, S., Wosnitza, J., Prokleska, J., Sechovský, V., Pavlík, V., Gao, S., Vrábel, P., Orendác, M., Orendácová, A., Cizmár, E., Tarasenko, R., Zvyagin, S., Wosnitza, J., Prokleska, J., Sechovský, V., Pavlík, V., and Gao, S.

Abstract

We report on a comprehensive investigation of the magnetic properties of [NdCo(bpdo)(Hsub2O)4(CN)6] . 3H2O (bpdo = 4, 4´-bipyridine-N,N´-dioxide) by use of electron paramagnetic resonance, magnetization, specific heat and susceptibility measurements. The studied material was identified as a magnet with an effective spin S D 1=2 and a weak exchange interaction J/kBb/> = 25 mK. The ac susceptibility studies conducted at audio frequencies and at temperatures from 1.8 to 9 K revealed that the application of a static magnetic field induces a slow spin relaxation. It is suggested that the relaxation in the magnetic field appears due to an Orbach-like process between the two lowest doublet energy states of the magnetic Nd3+ ion. The appearance of the slow relaxation in a magnetic field cannot be associated with a resonant phonon trapping. The obtained results suggest that the relaxation is influenced by nuclear spin driven quantum tunnelling which is suppressed by external magnetic field.

Published
2013

32. In situ neutron diffraction study of magnetic field induced martensite reorientation in Ni-Mn-Ga under constant stress

Author

Molnar P., Sittner P., Novák V., Prokleska J., Sechovsky V., Ouladdiaf B., Hanulla S.P., Heczko O., Molnar P., Sittner P., Novák V., Prokleska J., Sechovsky V., Ouladdiaf B., Hanulla S.P., and Heczko O.

Abstract

The magnetic field induced reorientation of martensite twins as a function of a compressive stress and crystallographic direction was studied on a single-crystalline Ni49.7Mn29.3Ga21 magnetic shape memory alloy by the in situ neutron diffraction technique. The compressive stress 0–3 MPa and magnetic field 0–3.5 T were applied perpendicularly to each other along the [001] and [100] ([010]) crystallographic directions of tetragonal martensite, respectively. The neutron diffraction method provides integrated information about the presence and volume fractions of individual martensite variants involved in magnetic actuation. It has been found that (i) martensite variant reorientation is not completed by applying magnetic field as high as 2.5 T, (ii) recoverable strain of about 3% due to switching between two variant microstructures is observed upon cyclic application of magnetic field under external compression stress 0.9 MPa, (iii) the magnetic field induced reorientation was suppressed by the bias external stress of 3 MPa and (iv) mechanical training by successive compression deformation on two different faces of the cuboid Ni–Mn–Ga single crystal is essential to achieve the magnetic field induced cyclic reorientation

Published
2008

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