Your search keyword '"Büchner, Bernd"' showing total 1,929 results

101. Mapping of the energetically lowest exciton in bulk $1T$-HfS$_2$

Author

Habenicht, Carsten, Sponza, Lorenzo, Schuster, Roman, Knupfer, Martin, and Büchner, Bernd

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

By combining electron energy-loss spectroscopy and state-of-the-art computational methods, we were able to provide an extensive picture of the excitonic processes in $1T$-HfS$_2$. The results differ significantly from the properties of the more scrutinized group VI semiconducting transition metal dichalcogenides such as MoS$_2$ and WSe$_2$. The measurements revealed a parabolic exciton dispersion for finite momentum $\textbf{q}$ parallel to the $\Gamma$K direction which allowed the determination of the effective exciton mass. The dispersion decreases monotonically for momentum exchanges parallel to the $\Gamma$M high symmetry line. To gain further insight into the excitation mechanisms, we solved the ab-initio Bethe-Salpeter equation for the system. The results matched the experimental loss spectra closely, thereby confirming the excitonic nature of the observed transitions, and produced the momentumdependent binding energies. The simulations also demonstrated that the excitonic transitions for $\textbf{q}$ || $\Gamma$M occur exactly along that particular high symmetry line. For $\textbf{q}$ || $\Gamma$K on the other hand, the excitations traverse the Brillouin zone crossing various high symmetry lines. A particular interesting aspect of our findings was that the calculation of the electron probability density revealed that the exciton assumes a six-pointed star-like shape along the real space crystal planes indicating a mixed Frenkel-Wannier character., Comment: 12 pages, 10 figures

Published

2018

102. Anomalous Nernst effect and field-induced Lifshitz transition in Weyl semimetals TaP and TaAs

Author

Caglieris, Federico, Wuttke, Christoph, Sykora, Steffen, Süss, Vicky, Shekhar, Chandra, Felser, Claudia, Büchner, Bernd, and Hess, Christian

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The discovery of Weyl fermions in transition metal monoarsenides/phosphides without inversion symmetry represents an exceptional breakthrough in modern condensed matter physics. However, exploring the inherent nature of these quasiparticles is experimentally elusive because most of the experimental probes rely on analysing Fermi arc topology or controversial signatures such as the appearance of the chiral anomaly and the giant magnetoresistance. Here we show that the prototypical type-I Weyl semimetals TaP and TaAs possess a giant anomalous Nernst signal with a characteristic saturation plateau beyond a critical field which can be understood as a direct consequence of the finite Berry curvature originating from the Weyl points. Our results thus promote the Nernst coefficient as an ideal bulk probe for detecting and exploring the fingerprints of emergent Weyl physics., Comment: accepted version of the manuscript

Published

2018

103. Investigation of indirect excitons in bulk $2H$-MoS$_2$ using transmission electron energy-loss spectroscopy

Author

Habenicht, Carsten, Schuster, Roman, Knupfer, Martin, and Büchner, Bernd

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We have investigated indirect excitons in bulk $2H$-MoS$_2$ using transmission electron energy-loss spectroscopy. The electron energy-loss spectra were measured for various momentum transfer values parallel to the $\Gamma$K and $\Gamma$M directions of the Brillouin zone. The results allowed the identification of the indirect excitons between the valence band K$_{\mathrm{v}}$ and conduction band $\Lambda_{\mathrm{c}}$ points, the $\Gamma_{\mathrm{v}}$ and K$_{\mathrm{c}}$ points as well as adjacent K$_{\mathrm{v}}$ and K$^{\prime}_\textrm{c}$ points. The energy-momentum dispersions for the K$_{\mathrm{v}}$-$\Lambda_{\mathrm{c}}$, $\Gamma_{\mathrm{v}}$-K$_{\mathrm{c}}$ and K$_{\mathrm{v1}}$-K$^{\prime}_\textrm{c}$ excitons along the $\Gamma$K line are presented. The former two transitions exhibit a quadratic dispersion which allowed calculating their effective exciton masses based on the effective mass approximation. The K$_\mathrm{v1}$-K$^{\prime}_\textrm{c}$ transition follows a more linear dispersion relationship., Comment: 8 pages, 4 figures

Published

2018

104. Suppression of the magnetic order in CeFeAsO: non-equivalence of hydrostatic and chemical pressure

Author

Materne, Philipp, Bi, Wenli, Alp, Esen Ercan, Zhao, Jiyong, Hu, Michael Yu, Jesche, Anton, Geibel, Christoph, Kappenberger, Rhea, Aswartham, Saicharan, Wurmehl, Sabine, Büchner, Bernd, Zhang, Dongzhou, Goltz, Til, Spehling, Johannes, and Klauss, Hans-Henning

Subjects

Condensed Matter - Superconductivity

Abstract

We present a detailed investigation of the electronic properties of CeFeAsO under chemical (As by P substitution) and hydrostatic pressure by means of in-house and synchrotron M\"ossbauer spectroscopy. The Fe magnetism is suppressed due to both pressures and no magnetic order was observed above a P-substitution level of 40% or 5.2 GPa hydrostatic pressure. We compared both pressures and found that the isovalent As by P substitution change the crystallographic and electronic properties differently than hydrostatic pressure., Comment: supplement is included in the pdf file

Published

2018

105. Rolled-up self-assembly of compact magnetic inductors, transformers and resonators

Author

Karnaushenko, Dmitriy D., Karnaushenko, Daniil, Grafe, Hans-Joachim, Kataev, Vladislav, Büchner, Bernd, and Schmidt, Oliver G.

Subjects

Physics - Applied Physics

Abstract

Three-dimensional self-assembly of lithographically patterned ultrathin films opens a path to manufacture microelectronic architectures with functionalities and integration schemes not accessible by conventional two-dimensional technologies. Among other microelectronic components, inductances, transformers, antennas and resonators often rely on three-dimensional configurations and interactions with electromagnetic fields requiring exponential fabrication efforts when downscaled to the micrometer range. Here, the controlled self-assembly of functional structures is demonstrated. By rolling-up ultrathin films into cylindrically shaped microelectronic devices we realized electromagnetic resonators, inductive and mutually coupled coils. Electrical performance of these devices is improved purely by transformation of a planar into a cylindrical geometry. This is accompanied by an overall downscaling of the device footprint area by more than 50 times. Application of compact self-assembled microstructures has significant impact on electronics, reducing size, fabrication efforts, and offering a wealth of new features in devices by 3D shaping., Comment: 19 pages, 3 figures, 6 supplementary figures

Published

2018

106. Large Thermal Hall Effect in $\alpha$-RuCl$_3$: Evidence for Heat Transport by Kitaev-Heisenberg Paramagnons

Author

Hentrich, Richard, Roslova, Maria, Isaeva, Anna, Doert, Thomas, Brenig, Wolfram, Büchner, Bernd, and Hess, Christian

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The honeycomb Kitaev model in a magnetic field is a source of a topological quantum spin liquid with Majorana fermions and gauge flux excitations as fractional quasiparticles. We present experimental results for the thermal Hall effect of the material $\alpha$-RuCl$_{3}$ which recently emerged as a prime candidate for realizing such physics. At temperatures above long-range magnetic ordering $T\gtrsim T_N\approx8$ K, we observe with an applied magnetic field $B$ perpendicular to the honeycomb layers a sizeable positive transversal heat conductivity $\kappa_{xy}$ which increases linearly with $B$. Upon raising the temperature, $\kappa_{xy}(T)$ increases strongly, exhibits a broad maximum at around 30 K, and eventually becomes negligible at $T\gtrsim 125$ K. Remarkably, the longitudinal heat conductivity $\kappa_{xx}(T)$ exhibits a sizeable positive thermal magnetoresistance effect. Thus, our findings provide clear-cut evidence for longitudinal and transverse magnetic heat transport and underpin the unconventional nature of the quasiparticles in the paramagnetic phase of $\alpha$-RuCl$_{3}$.

Published

2018

107. Detuning the Honeycomb of $\alpha$-RuCl$_{3}$: Pressure-Dependent Optical Studies Reveal Broken Symmetry

Author

Biesner, Tobias, Biswas, Sananda, Li, Weiwu, Saito, Yohei, Pustogow, Andrej, Altmeyer, Michaela, Wolter, Anja U. B., Büchner, Bernd, Roslova, Maria, Doert, Thomas, Winter, Stephen M., Valentí, Roser, and Dressel, Martin

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The honeycomb Mott insulator $\alpha$-RuCl$_3$ loses its low-temperature magnetic order by pressure. We report clear evidence for a dimerized structure at $P>1$ GPa and observe the breakdown of the relativistic $j_{\rm eff}$ picture in this regime strongly affecting the electronic properties. A pressure-induced Kitaev quantum spin liquid cannot occur in this broken symmetry state. We shed light on the new phase by broad-band infrared spectroscopy of the low-temperature properties of $\alpha$-RuCl$_{3}$ and ab initio density functional theory calculations, both under hydrostatic pressure., Comment: 5 pages, 4 figures

Published

2018

108. Spin-polaron ladder spectrum of the spin-orbit-induced Mott insulator Sr$_2$IrO$_{4}$ probed by scanning tunneling spectroscopy

Author

Guevara, Jose M., Sun, Zhixiang, Pärschke, Ekaterina M., Sykora, Steffen, Manna, Kaustuv, Schoop, Johannes, Maljuk, Andrey, Wurmehl, Sabine, Brink, Jeroen van den, Büchner, Bernd, and Hess, Christian

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The motion of doped electrons or holes in an antiferromagnetic lattice with strong on-site Coulomb interactions touches one of the most fundamental open problems in contemporary condensed matter physics. The doped charge may strongly couple to elementary spin excitations resulting in a dressed quasiparticle which is subject to confinement. This 'spin-polaron' possesses internal degrees of freedom with a characteristic 'ladder' excitation spectrum. Despite its fundamental importance for understanding high-temperature superconductivity, clear experimental spectroscopic signatures of these internal degrees of freedom are scarce. Here we present scanning tunneling spectroscopy results of the spin-orbit-induced Mott insulator Sr$_2$IrO$_{4}$. Our spectroscopy data reveal distinct shoulder-like features for occupied and unoccupied states beyond a measured Mott gap of $\Delta\approx620$~meV. Using the self-consistent Born approximation we assign the anomalies in the unoccupied states to the spin-polaronic ladder spectrum with excellent quantitative agreement and estimate the Coulomb repulsion $U$ = 2.05 ...2.28 eV in this material. These results confirm the strongly correlated electronic structure of this compound and underpin the previously conjectured paradigm of emergent unconventional superconductivity in doped Sr$_2$IrO$_{4}$.

Published

2018

109. Magnetization reversal and local switching fields of ferromagnetic Co/Pd microtubes with radial magnetization

Author

Puwenberg, Norbert, Reiche, Christopher F, Streubel, Robert, Khan, Mishal, Mukherjee, Dipankar, Soldatov, Ivan V, Melzer, Michael, Schmidt, Oliver G, Büchner, Bernd, and Mühl, Thomas

Subjects

Physical Sciences, Classical Physics, Chemical sciences, Engineering, Physical sciences

Abstract

Three-dimensional nanomagnetism is a rapidly growing field of research covering both noncollinear spin textures and curved magnetic geometries including microtubular structures. We spatially resolve the field-induced magnetization reversal of free-standing ferromagnetic microtubes utilizing multifrequency magnetic force microscopy (MFM). The microtubes are composed of Co/Pd multilayer films with perpendicular magnetic anisotropy that translates to an anisotropy with radial easy axis upon rolling-up. Simultaneously mapping the topography and the perpendicular magnetostatic force derivative, the relation between surface angle and local magnetization configuration is evaluated for a large number of locations with slopes exceeding 45 degrees. The angle-dependence of the switching field is concurrent with the Kondorsky model, i.e., the rolled-up nanomembrane behaves like a planar magnetic film with perpendicular anisotropy and a pinning dominated magnetization reversal. Additionally, we discuss methodological challenges when detecting magnetostatic force derivatives near steep surfaces.

Published

2019

110. Unveiling the three-dimensional magnetic texture of skyrmion tubes

Author

Wolf, Daniel, Schneider, Sebastian, Rößler, Ulrich K., Kovács, András, Schmidt, Marcus, Dunin-Borkowski, Rafal E., Büchner, Bernd, Rellinghaus, Bernd, and Lubk, Axel

Published

2022

111. Fermi surface tomography

Author

Borisenko, Sergey, Fedorov, Alexander, Kuibarov, Andrii, Bianchi, Marco, Bezguba, Volodymyr, Majchrzak, Paulina, Hofmann, Philip, Baumgärtel, Peter, Voroshnin, Vladimir, Kushnirenko, Yevhen, Sánchez-Barriga, Jaime, Varykhalov, Andrei, Ovsyannikov, Ruslan, Morozov, Igor, Aswartham, Saicharan, Feia, Oleh, Harnagea, Luminita, Wurmehl, Sabine, Kordyuk, Alexander, Yaresko, Alexander, Berger, Helmuth, and Büchner, Bernd

Published

2022

112. Induction Mapping of the 3D-Modulated Spin Texture of Skyrmions in Thin Helimagnets

Author

Schneider, Sebastian, Wolf, Daniel, Stolt, Matthew J., Jin, Song, Pohl, Darius, Rellinghaus, Bernd, Schmidt, Marcus, Büchner, Bernd, Goennenwein, Sebastian T. B., Nielsch, Kornelius, and Lubk, Axel

Subjects

Condensed Matter - Materials Science

Abstract

Envisaged applications of skyrmions in magnetic memory and logic devices crucially depend on the stability and mobility of these topologically non-trivial magnetic textures in thin films. We present for the first time quantitative maps of the magnetic induction that provide evidence for a 3D modulation of the skyrmionic spin texture. The projected in-plane magnetic induction maps as determined from in-line and off-axis electron holography carry the clear signature of Bloch skyrmions. However, the magnitude of this induction is much smaller than the values expected for homogeneous Bloch skyrmions that extend throughout the thickness of the film. This finding can only be understood, if the underlying spin textures are modulated along the out-of-plane z direction. The projection of (the in-plane magnetic induction of) helices is further found to exhibit thickness-dependent lateral shifts, which show that this z modulation is accompanied by an (in-plane) modulation along the x and y directions.

Published

2017

113. The three-dimensional electronic structure of the nematic and antiferromagnetic phases of NaFeAs from detwinned ARPES measurements

Author

Watson, Matthew D., Aswartham, Saicharan, Rhodes, Luke C., Parrett, Benjamin, Iwasawa, Hideaki, Hoesch, Moritz, Morozov, Igor, Büchner, Bernd, and Kim, Timur K.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We report a comprehensive ARPES study of NaFeAs, a prototypical parent compound of the Fe-based superconductors. By mechanically detwinning the samples, we show that in the nematic phase (below the structural transition at $T_s$ = 54 K but above the antiferromagnetic transition at $T_N$ = 43 K) spectral weight is detected on only the elliptical electron pocket along the longer $a_{orth}$ axis. This dramatic anisotropy is likely to arise as a result of coupling to a fluctuating antiferromagnetic order in the nematic phase. In the long-range ordered antiferromagnetic state below $T_N$, this single electron pocket is backfolded and hybridises with the hole bands, leading to the reconstructed Fermi surface. By careful analysis of the $k_z$ variation, we show that the backfolding of spectral weight in the magnetic phase has a wavector of ($\pi$,0,$\pi$), with the $c$-axis component being in agreement with the magnetic ordering in NaFeAs observed by neutron scattering. Our results clarify the origin of the tiny Fermi surfaces of NaFeAs at low temperatures and highlight the importance of the three-dimensional aspects of the electronic and magnetic properties of Fe-based superconductors.

Published

2017

114. Low temperature enhancement of ferromagnetic Kitaev correlations in {\alpha}-RuCl3

Author

Koitzsch, Andreas, Mueller, Eric, Knupfer, Martin, Buechner, Bernd, Nowak, Domenic, Isaeva, Anna, Doert, Thomas, Grueninger, Markus, Nishimoto, Satoshi, and Brink, Jeroen van den

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Kitaev-type interactions between neighbouring magnetic moments emerge in the honeycomb material ${\alpha}$-RuCl3. It is debated however whether these Kitaev interactions are ferromagnetic or antiferromagnetic. With electron energy loss spectroscopy (EELS) we study the lowest excitation across the Mott-Hubbard gap, which involves a d4 triplet in the final state and therefore is sensitive to nearest-neighbor spin-spin correlations. At low temperature the spectral weight of these triplets is strongly enhanced, in accordance with optical data. We show that the magnetic correlation function that determines this EELS spectral weight is directly related to a Kitaev-type spin-spin correlator and that the temperature dependence agrees very well with the results of a microscopic magnetic Hamiltonian for ${\alpha}$-RuCl3 with ferromagnetic Kitaev coupling., Comment: 5 pages, 3 figures

Published

2017

115. Suppression of scattering in quantum confined 2D-helical Dirac systems

Author

Dufouleur, Joseph, Xypakis, Emmanouil, Büchner, Bernd, Giraud, Romain, and Bardarson, Jens H.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Transport properties of disordered quantum confined helical Dirac systems are investigated in the large energy limit. As long as the 2D transport length is larger than the perimeter of the nanowire, the conductance and the Fano factor are sensitive to disorder only when the Fermi energy is close to an opening of a transverse mode. In the limit of a large number of transverse modes, transport properties are insensitive to the geometry of the nanowire or the nature and strength of the disorder but, instead, are dominated by the properties of the interface between the ohmic contact and the nanowire. In the case of a heavily doped Dirac metallic contact, the conductance is proportional to the energy with an average transmission $\mathcal{T}=\pi/4$ and a Fano factor of $F\simeq 0.13$. Those results can be generalized to a much broader class of contacts, the exact values of $\mathcal{T}$ and $F$ depending on the model used for the contacts. The energy dependence of Aharonov-Bohm oscillations is determined, when a magnetic flux is threaded through the cross section of the nanowire.

Published

2017

116. The effect of different in-chain impurities on the magnetic properties of the spin chain compound SrCuO$_2$ probed by NMR

Author

Utz, Yannic, Hammerath, Franziska, Kraus, Roberto, Ritschel, Tobias, Geck, Jochen, Hozoi, Liviu, Brink, Jeroen van den, Mohan, Ashwin, Hess, Christian, Karmakar, Koushik, Singh, Surjeet, Bounoua, Dalila, Saint-Martin, Romuald, Pinsard-Gaudart, Loreynne, Revcolevschi, Alexandre, Buechner, Bernd, and Grafe, Hans-Joachim

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The S=1/2 Heisenberg spin chain compound SrCuO2 doped with different amounts of nickel (Ni), palladium (Pd), zinc (Zn) and cobalt (Co) has been studied by means of Cu nuclear magnetic resonance (NMR). Replacing only a few of the S=1/2 Cu ions with Ni, Pd, Zn or Co has a major impact on the magnetic properties of the spin chain system. In the case of Ni, Pd and Zn an unusual line broadening in the low temperature NMR spectra reveals the existence of an impurity-induced local alternating magnetization (LAM), while exponentially decaying spin-lattice relaxation rates $T_1^{-1}$ towards low temperatures indicate the opening of spin gaps. A distribution of gap magnitudes is proven by a stretched spin-lattice relaxation and a variation of $T_1^{-1}$ within the broad resonance lines. These observations depend strongly on the impurity concentration and therefore can be understood using the model of finite segments of the spin 1/2 antiferromagnetic Heisenberg chain, i.e. pure chain segmentation due to S = 0 impurities. This is surprising for Ni as it was previously assumed to be a magnetic impurity with S = 1 which is screened by the neighboring copper spins. In order to confirm the S = 0 state of the Ni, we performed x-ray absorption spectroscopy (XAS) and compared the measurements to simulated XAS spectra based on multiplet ligand-field theory. Furthermore, Zn doping leads to much smaller effects on both the NMR spectra and the spin-lattice relaxation rates, indicating that Zn avoids occupying Cu sites. For magnetic Co impurities, $T_1^{-1}$ does not obey the gap like decrease, and the low-temperature spectra get very broad. This could be related to the increase of the Neel temperature which was observed by recent muSR and susceptibility measurements, and is most likely an effect of the impurity spin $S\neq0$., Comment: 14 pages, 10 figures

Published

2017

117. Probing the degree of spin polarization of a ferromagnet with ferromagnet/superconductor proximity effect

Author

Leksin, Pavel V., Kamashev, Andrey A., Schumann, Joachim, Kataev, Vladislav, Thomas, Jürgen, Gemming, Thomas, Büchner, Bernd, and Garifullin, Ilgiz A.

Subjects

Condensed Matter - Superconductivity

Abstract

Superconductor/ferromagnet proximity effect has been studied for Pb/Co$_2$Cr$_{1-x}$Fe$_x$Al bilayers. Different substrate temperatures allowed us to prepare the Heusler alloy Co$_2$Cr$_{1-x}$Fe$_x$Al films with different degree of spin polarization of conduction band of the Heusler layer. We obtain a strong correlation between the dependence of the superconducting transition temperature on the Pb-layer thickness at fixed thickness of the Heusler layer and the degree of spin polarization in the ferromagnetic layer., Comment: submitted to Nano Research

Published

2017

118. Large field-induced gap of Kitaev-Heisenberg paramagnons in $\alpha$-RuCl$_{3}$

Author

Hentrich, Richard, Wolter, Anja U. B., Zotos, Xenophon, Brenig, Wolfram, Nowak, Domenic, Isaeva, Anna, Doert, Thomas, Banerjee, Arnab, Lampen-Kelley, Paula, Mandrus, David G., Nagler, Stephen E., Sears, Jennifer, Kim, Young-June, Büchner, Bernd, and Hess, Christian

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The honeycomb Kitaev-Heisenberg model is a source of a quantum spin liquid with Majorana fermions and gauge flux excitations as fractional quasiparticles. In the quest of finding a pertinent material, $\alpha$-RuCl$_{3}$ recently emerged as a prime candidate. Here we unveil highly unusual low-temperature heat conductivity $\kappa$ of $\alpha$-RuCl$_{3}$: beyond a magnetic field of $B_c\approx$ 7.5 T, $\kappa$ increases by about one order of magnitude, resulting in a large magnetic field dependent peak at about 7 K, both for in-plane as well as out-of-plane transport. This clarifies the unusual magnetic field dependence unambiguously to be the result of severe scattering of phonons off putative Kitaev-Heisenberg excitations in combination with a drastic field-induced change of the magnetic excitation spectrum. In particular, an unexpectedly large energy gap arises, which increases approximately linearly with the magnetic field and reaches a remarkably large $\hbar\omega_0/k_B\approx $ 50 K at 18 T., Comment: 9 pages, 4 figures, supplementary information included

Published

2017

119. Visualizing the electronic structure of kagome magnet LuMn6Sn6 by angle-resolved photoemission spectroscopy.

Author

Li, Man, Wang, Qi, Zhou, Liqin, Song, Wenhua, Ma, Huan, Ding, Pengfei, Fedorov, Alexander, Huang, Yaobo, Büchner, Bernd, Lei, Hechang, Wang, Shancai, and Lou, Rui

Subjects

PHOTOELECTRON spectroscopy, FERMI level, ELECTRONIC structure, DENSITY functional theory, BRILLOUIN zones

Abstract

Searching for the dispersionless flat band (FB) in quantum materials, especially in topological systems, becomes an interesting topic. The kagome lattice is an ideal platform for such exploration because the FB can be naturally induced by the underlying destructive interference. Nevertheless, the magnetic kagome system that hosts the FB close to the Fermi level (E F) is exceptionally rare. Here, we study the electronic structure of a kagome magnet LuMn6Sn6 by combining angle-resolved photoemission spectroscopy and density functional theory calculations. The observed Fermi-surface topology and overall band dispersions are similar to previous studies of the X Mn6Sn6 (X = Dy, Tb, Gd, Y) family of compounds. We clearly observe two kagome-derived FBs extending through the entire Brillouin zone, and one of them is located just below E F. The photon-energy-dependent measurements reveal that these FBs are nearly dispersionless along the kz direction as well, supporting the quasi-two-dimensional character of such FBs. Our results complement the X Mn6Sn6 family and demonstrate the robustness of the FB features across this family. [ABSTRACT FROM AUTHOR]

Published

2024

120. Synthesis and properties of Sr2La2NiW2O12, a new S = 1 triangular lattice magnet.

Author

Smerechuk, Anastasiia, Guilherme Buzanich, Ana, Büchner, Bernd, Wurmehl, Sabine, and Morrow, Ryan

Subjects

MAGNETIC structure, MAGNETIC materials, MAGNETIC crystals, MAGNETIC properties, BOND angles

Abstract

Magnetic materials featuring triangular arrangements of spins are frequently investigated as platforms hosting magnetic frustration. Hexagonal perovskites with ordered vacancies serve as excellent candidates for two‐dimensional triangular magnetism due to the considerable separation of the magnetic planes. In this work, the effects of chemical pressure on the ferromagnetic ground state of Ba2La2NiW2O12 by substitution of Ba2+ with Sr2+ to produce Sr2La2NiW2O12 are investigated. The two materials are characterized using synchrotron‐based XRD, XANES and EXAFS in addition to magnetometry in order to correlate their crystal structures and magnetic properties. Both materials form in space group R3, yet as a result of the enhanced bending of key bond angles due to the effects of chemical pressure, the TC value of the magnetic Ni2+ sublattice is reduced from ∼6 K in Ba2La2NiW2O12 to 4 K in Sr2La2NiW2O12. [ABSTRACT FROM AUTHOR]

Published

2024

121. Disentangling the Unusual Magnetic Anisotropy of the Near‐Room‐Temperature Ferromagnet Fe4GeTe2.

Author

Pal, Riju, Abraham, Joyal John, Mistonov, Alexander, Mishra, Swarnamayee, Stilkerich, Nina, Mondal, Suchanda, Mandal, Prabhat, Pal, Atindra Nath, Geck, Jochen, Büchner, Bernd, Kataev, Vladislav, and Alfonsov, Alexey

Subjects

ELECTRON paramagnetic resonance, MAGNETIC anisotropy, MAGNETIC resonance, NUCLEAR spin, FERROMAGNETIC resonance

Abstract

In the quest for 2D conducting materials with high ferromagnetic ordering temperature the new family of the layered FenGeTe2 compounds, especially the near‐room‐temperature ferromagnet Fe4GeTe2, receives a significant attention. Fe4GeTe2 features a peculiar spin reorientation transition at TSR ≈ 110 K suggesting a non‐trivial temperature evolution of the magnetic anisotropy (MA)—one of the main contributors to the stabilization of the magnetic order in the low‐dimensional systems. An electron spin resonance (ESR) spectroscopic study reported here provides quantitative insights into the unusual magnetic anisotropy of Fe4GeTe2. At high temperatures the total MA is mostly given by the demagnetization effect with a small contribution of the counteracting intrinsic magnetic anisotropy of an easy‐axis type, whose growth below a characteristic temperature Tshape ≈ 150 K renders the sample seemingly isotropic at TSR. Below one further temperature Td ≈ 50 K the intrinsic MA becomes even more complex. Importantly, all the characteristic temperatures found in the ESR experiment match those observed in transport measurements, suggesting an inherent coupling between magnetic and electronic degrees of freedom in Fe4GeTe2. This finding together with the observed signatures of the intrinsic two‐dimensionality should facilitate optimization routes for the use of Fe4GeTe2 in the magneto‐electronic devices, potentially even in the monolayer limit. [ABSTRACT FROM AUTHOR]

Published

2024

122. Thirty Years of Hide-and-Seek: Capturing Abundant but Elusive MIII@C3v(8)‑C82 Isomer, and the Study of Magnetic Anisotropy Induced in Dy3+ Ion by the Fullerene π‑Ligand.

Author

Yang, Wei, Barbosa, Matheus Felipe de Souza, Alfonsov, Alexey, Rosenkranz, Marco, Israel, Noel, Büchner, Bernd, Avdoshenko, Stanislav M., Liu, Fupin, and Popov, Alexey A.

Published

2024

123. Ubiquitous Order‐Disorder Transition in the Mn Antisite Sublattice of the (MnBi2Te4)(Bi2Te3)n Magnetic Topological Insulators.

Author

Sahoo, Manaswini, Onuorah, Ifeanyi John, Folkers, Laura Christina, Kochetkova, Ekaterina, Chulkov, Evgueni V., Otrokov, Mikhail M., Aliev, Ziya S., Amiraslanov, Imamaddin R., Wolter, Anja U. B., Büchner, Bernd, Corredor, Laura Teresa, Wang, Chennan, Salman, Zaher, Isaeva, Anna, De Renzi, Roberto, and Allodi, Giuseppe

Subjects

MAGNETIC insulators, MUON spin rotation, MAGNETIC structure, MAGNETIC transitions, TOPOLOGICAL insulators

Abstract

Magnetic topological insulators (TIs) herald a wealth of applications in spin‐based technologies, relying on the novel quantum phenomena provided by their topological properties. Particularly promising is the (MnBi2Te4)(Bi2Te3)n layered family of established intrinsic magnetic TIs that can flexibly realize various magnetic orders and topological states. High tunability of this material platform is enabled by manganese–pnictogen intermixing, whose amounts and distribution patterns are controlled by synthetic conditions. Here, nuclear magnetic resonance and muon spin spectroscopy, sensitive local probe techniques, are employed to scrutinize the impact of the intermixing on the magnetic properties of (MnBi2Te4)(Bi2Te3)n and MnSb2Te4. The measurements not only confirm the opposite alignment between the Mn magnetic moments on native sites and antisites in the ground state of MnSb2Te4, but for the first time directly show the same alignment in (MnBi2Te4)(Bi2Te3)n with n = 0, 1 and 2. Moreover, for all compounds, the static magnetic moment of the Mn antisite sublattice is found to disappear well below the intrinsic magnetic transition temperature, leaving a homogeneous magnetic structure undisturbed by the intermixing. The findings provide a microscopic understanding of the crucial role played by Mn–Bi intermixing in (MnBi2Te4)(Bi2Te3)n and offer pathways to optimizing the magnetic gap in its surface states. [ABSTRACT FROM AUTHOR]

Published

2024

124. Thermodynamic and DFT modeling in quaternary Co-based Heusler phase space: Understanding the interplay between disorder, bonding, and magnetism

Author

Romaka, Vitaliy, Omar, Ahmad, Löser, Wolfgang, Büchner, Bernd, and Wurmehl, Sabine

Published

2022

125. Structural and Magnetic Transitions Caused by Dimer Formation in the CrCl3–MoCl3 Solid Solution

Author

Froeschke, Samuel, primary, Bestha, Kranthi Kumar, additional, Fucke, Rico, additional, Schiemenz, Sandra, additional, Popov, Alexey, additional, Naumann, Marco, additional, Knupfer, Martin, additional, Giebeler, Lars, additional, Wolf, Daniel, additional, Kizhake Malayil, Ranjith Kumar, additional, Sivan, Saramgi Chencheriparambil, additional, Grafe, Hans-Joachim, additional, Gräßler, Nico, additional, Corredor, Laura T., additional, Wolter, Anja U. B., additional, Büchner, Bernd, additional, Schmidt, Peer, additional, and Hampel, Silke, additional

Published

2024

126. Interplay of topology and antiferromagnetic order in two-dimensional van der Waals crystals of (NixFe1-x)2P2S6

Author

Khan, Nasaru, primary, Kumar, Deepu, additional, Kumar, Vivek, additional, Shemerliuk, Yuliia, additional, Selter, Sebastian, additional, Büchner, Bernd, additional, Pal, Koushik, additional, Aswartham, Saicharan, additional, and Kumar, Pradeep, additional

Published

2024

127. Emergence of monolayer electron behavior in bulk van der Waals superlattice

Author

Ding, Pengfei, primary, Lin, Jun-Fa, additional, Sun, Peihan, additional, Lou, Rui, additional, Fedorov, Alexander, additional, He, Zhi-Xiao, additional, Ma, Huan, additional, Zhou, Zuoping, additional, Büchner, Bernd, additional, Chen, Xi, additional, Liu, Kai, additional, Xia, Tian-Long, additional, and Wang, Shancai, additional

Published

2024

128. State with spontaneously broken time-reversal symmetry above the superconducting phase transition

Author

Grinenko, Vadim, Weston, Daniel, Caglieris, Federico, Wuttke, Christoph, Hess, Christian, Gottschall, Tino, Maccari, Ilaria, Gorbunov, Denis, Zherlitsyn, Sergei, Wosnitza, Jochen, Rydh, Andreas, Kihou, Kunihiro, Lee, Chul-Ho, Sarkar, Rajib, Dengre, Shanu, Garaud, Julien, Charnukha, Aliaksei, Hühne, Ruben, Nielsch, Kornelius, Büchner, Bernd, Klauss, Hans-Henning, and Babaev, Egor

Published

2021

129. Tunable Magnetic Properties of Carbon-shielded NiPt Nanoalloys

Author

El-Gendy, Ahmed A., Hampel, Silke, Büchner, Bernd, and Klingeler, Rüdiger

Subjects

Condensed Matter - Materials Science

Abstract

Spherical NiPt@C nanoalloys encapsulated in carbon shells are synthesized by means of high-pressure chemical vapour deposition. Upon variation of the synthesis parameters, both the alloy core composition and the particle size of the resulting spherical NixPt1-x@C nanocapsules can be controlled. The sublimation temperatures of the Ni- and Pt-precursors are found key to control the alloy composition and diameter. Depending on the synthesis parameters, the diameters of the cores are tuneable in the range of 3 - 15 nm while the carbon coatings for all conditions are 1 - 2 nm. The core particle size decreases linearly upon increasing either of the sublimation temperatures while the Ni and Pt content, respectively, are linearly increasing with the related precursor temperature. Accordingly, the magnetic properties of the nanoalloys, i.e. magnetization, remanent magnetization and critical field, are well controlled by the two sublimation temperatures. As compared to bulk NiPt, our data show an increase of Stoner enhancement by nanoscaling as ferromagnetism appears in the Pt rich NiPt nanoalloy which is not observed for the related bulk alloys. The magneto-crystalline anisotropy constants K are in the range of 0.3 - 4 x 105 J/m3 underlining that NiPt@C is a stable, highly magnetic functional nanomaterial.

Published

2016

130. Spin-orbit coupling control of anisotropy, ground state and frustration in 5d2 Sr2MgOsO6

Author

Morrow, Ryan, Taylor, Alice E., Singh, D. J., Xiong, Jie, Rodan, Steven, Wolter, A. U. B., Wurmehl, Sabine, Büchner, Bernd, Stone, M. B., Kolesnikov, A. I., Aczel, Adam A., Christianson, A. D., and Woodward, Patrick M.

Subjects

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

Abstract

The influence of spin-orbit coupling (SOC) on the physical properties of the 5d2 system Sr2MgOsO6 is probed via a combination of magnetometry, specific heat measurements, elastic and inelastic neutron scattering, and density functional theory calculations. Although a significant degree of frustration is expected, we find that Sr2MgOsO6 orders in a type I antiferromagnetic structure at the remarkably high temperature of 108 K. The measurements presented allow for the first accurate quantification of the size of the magnetic moment in a 5d2 system of 0.60(2) muB - a significantly reduced moment from the expected value for such a system. Furthermore, significant anisotropy is identified via a spin excitation gap, and we confirm by first principles calculations that SOC not only provides the magnetocrystalline anisotropy, but also plays a crucial role in determining both the ground state magnetic order and the size of the local moment in this compound. Through comparison to Sr2ScOsO6, it is demonstrated that SOC-induced anisotropy has the ability to relieve frustration in 5d2 systems relative to their 5d3 counterparts, providing an explanation of the high TN found in Sr2MgOsO6., Comment: Submitted to Scientific Reports

Published

2016

131. Magnetotransport and de Haas-van Alphen measurements in the type-II Weyl semimetal TaIrTe$_4$

Author

Khim, Seunghyun, Koepernik, Klaus, Efremov, Dmitry V., Klotz, J., Förster, T., Wosnitza, J., Sturza, Mihai I., Wurmehl, Sabine, Hess, Christian, Brink, Jeroen van den, and Büchner, Bernd

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The layered ternary compound TaIrTe$_4$ has been predicted to be a type-II Weyl semimetal with only four Weyl points just above the Fermi energy. Performing magnetotransport measurements on this material we find that the resistivity does not saturate for fields up to 70 T and follows a $ \rho \sim B^{1.5}$ dependence. Angular-dependent de Haas-van Alphen (dHvA) measurements reveal four distinct frequencies. Analyzing these magnetic quantum oscillations by use of density functional theory (DFT) calculations we establish that in TaIrTe$_4$ the Weyl points are located merely $\sim$ 40-50 meV above the chemical potential, suggesting that the chemical potential can be tuned into the four Weyl nodes by moderate chemistry or external pressure, maximizing their chiral effects on electronic and magnetotransport properties.

Published

2016

132. Orbital reconstruction in nonpolar tetravalent transition-metal oxide layers

Author

Bogdanov, Nikolay A., Katukuri, Vamshi M., Romhányi, Judit, Yushankhai, Viktor, Kataev, Vladislav, Büchner, Bernd, Brink, Jeroen van den, and Hozoi, Liviu

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

A promising route to tailoring the electronic properties of quantum materials and devices rests on the idea of orbital engineering in multilayered oxide heterostructures. Here we show that the interplay of interlayer charge imbalance and ligand distortions provides a knob for tuning the sequence of electronic levels even in intrinsically stacked oxides. We resolve in this regard the $d$-level structure of layered Sr$_2$IrO$_4$ by electron spin resonance. While canonical ligand-field theory predicts $g_{\parallel}$-factors $\!<\!2$ for positive tetragonal distortions as present in Sr$_2$IrO$_4$, the experiment indicates $g_{\parallel}\!>\!2$. This implies that the iridium $d$ levels are inverted with respect to their normal ordering. State-of-the-art electronic-structure calculations confirm the level switching in Sr$_2$IrO$_4$, whereas we find them in Ba$_2$IrO$_4$ to be instead normally ordered. Given the nonpolar character of the metal-oxygen layers, our findings highlight the tetravalent transition-metal 214 oxides as ideal platforms to explore $d$-orbital reconstruction in the context of oxide electronics.

Published

2016

133. TaIrTe4 a ternary Type-II Weyl semi-metal

Author

Koepernik, K., Kasinathan, D., Efremov, D. V., Khim, Seunghyun, Borisenko, Sergey, Büchner, Bernd, and Brink, Jeroen van den

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

In metallic condensed matter systems two different types of Weyl fermions can in principle emerge, with either a vanishing (type-I) or with a finite (type-II) density of states at the Weyl node energy. So far only WTe2 and MoTe2 were predicted to be type-II Weyl semi-metals. Here we identify TaIrTe4 as a third member of this family of topological semi-metals. TaIrTe4 has the attractive feature that it hosts only four well-separated Weyl points, the minimum imposed by symmetry. Moreover, the resulting topological surface states - Fermi arcs connecting Weyl nodes of opposite chirality - extend to about 1/3 of the surface Brillouin zone. This large momentum-space separation is very favorable for detecting the Fermi arcs spectroscopically and in transport experiments.

Published

2016

134. Combined resistivity and Hall effect study on NaFe$_{1-x}$Rh$_x$As single crystals

Author

Steckel, Frank, Beck, Robert, Roslova, Maria, Bombor, Dirk, Morozov, Igor, Wurmehl, Sabine, Buechner, Bernd, and Hess, Christian

Subjects

Condensed Matter - Superconductivity

Abstract

Electrical transport measurements are used to study the Rh-doped NaFeAs superconductor series with a focus on the tetragonal phase. The resistivity curvature has an anomalous temperature dependence evidencing in the phase diagram two crossover regions of changes in the scattering rate, the effective mass as well as of the charge carrier density. The first crossover region is directly connected to the structural transition and resembles the onset of resistivity anisotropy. The second crossover region can as well be deduced from the temperature dependent Hall coefficient. A comparison to literature NMR data suggests this region to be connected with nematic fluctuations far above the tetragonal to orthorhombic phase transition.

Published

2016

135. Thirty Years of Hide-and-Seek: Capturing Abundant but Elusive MIII@C3v(8)-C82Isomer, and the Study of Magnetic Anisotropy Induced in Dy3+Ion by the Fullerene π-Ligand

Author

Yang, Wei, Barbosa, Matheus Felipe de Souza, Alfonsov, Alexey, Rosenkranz, Marco, Israel, Noel, Büchner, Bernd, Avdoshenko, Stanislav M., Liu, Fupin, and Popov, Alexey A.

Abstract

Our knowledge about endohedral metallofullerenes (EMFs) is restricted to the structures with sufficient kinetic stability to be extracted from the arc-discharge soot and processed by chromatographic and structural techniques. For the most abundant rare-earth monometallofullerene MIII@C82, experimental studies repeatedly demonstrated C2v(9) and Cs(6) carbon cage isomers, while computations predicted equal stability of the “missing” C3v(8) isomer. Here we report that this isomer is indeed formed but has not been recovered from soot using standard protocols. Using a combination of redox extraction and subsequent benzylation and trifluoromethylation with single-crystal XRD analysis of CF3adduct, we prove that Dy@C3v(8)-C82is one of the most abundantly produced metallofullerenes, which was not identified in earlier studies because of the low kinetic stability. Further, using the Dy@C3v(8)-C82(CF3) and Dy@C3v(8)-C82(CH2Ph) monoadducts for the case study, we analyzed the role of metal-fullerene bonding on the single-ion magnetic anisotropy of Dy in EMFs. The multitechnique approach, combining ab initiocalculations, EPR spectroscopy, and SQUID magnetometry, demonstrated that coordination of the Dy ion to the fullerene cage induces moderate, nonaxial, and very fluid magnetic anisotropy, which strongly varies with small alterations in the Dy-fullerene coordination geometry. As a result, Dy@C3v(8)-C82(CH2Ph) is a weak field-induced single-molecule magnet (SMM), whose signatures of magnetic relaxation are detectable only below 3 K. Our results demonstrate that metal-cage interactions should have a detrimental effect on the SMM performance of EMFs. At the same time, the strong variability of the magnetic anisotropy with metal position suggests tunability and offers strategies for future progress.

Published

2024

136. Suppression of the impurity-induced local magnetism by the opening of a spin pseudogap in Ni-doped Sr$_2$CuO$_3$

Author

Utz, Yannic, Hammerath, Franziska, Nishimoto, Satoshi, Hess, Christian, Beesetty, Neela Sekhar, Saint-Martin, Romuald, Revcolevschi, Alexandre, Büchner, Bernd, and Grafe, Hans-Joachim

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The $S=1/2$ antiferromagnetic Heisenberg spin chain compound Sr$_2$CuO$_3$ doped with $1 \%$ and $2 \%$ of Ni impurities has been studied by means of $^{63}$Cu nuclear magnetic resonance. A strong decrease of the spin-lattice relaxation rate $T_1^{-1}$ at low temperatures points toward a spin gap, while a stretching exponent $\lambda < 1$ and a frequency dependence of $T_1^{-1}$ indicate that this spin gap varies spatially and should rather be characterized as a spin pseudogap. The magnitude of the spin pseudogap scales with doping level. Our results therefore evidence the finite-size character of this phenomenon. Moreover, an unusual narrowing of the low temperature NMR lines reveals the suppression of the impurity-induced staggered paramagnetic response with increasing doping level., Comment: 5 pages, 3 figures, 4 pages appendices

Published

2015

137. Band bending inversion in Bi$_2$Se$_3$ nanostructures

Author

Veyrat, Louis, Iacovella, Fabrice, Dufouleur, Joseph, Nowka, Christian, Funke, Hannes, Yang, Ming, Escoffier, Walter, Goiran, Michel, Buechner, Bernd, Hampel, Silke, and Giraud, Romain

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Shubnikov-de-Haas oscillations were studied under high magnetic field in Bi$_2$Se$_3$ nanostructures grown by Chemical Vapor Transport, for different bulk carrier densities ranging from $3\times10^{19}\text{cm}^{-3}$ to $6\times10^{17}\text{cm}^{-3}$. The contribution of topological surface states to electrical transport can be identified and separated from bulk carriers and massive two-dimensional electron gas. Band bending is investigated, and a crossover from upward to downward band bending is found at low bulk density, as a result of a competition between bulk and interface doping. These results highlight the need to control electrical doping both in the bulk and at interfaces in order to study only topological surface states., Comment: 6 pages, 4 figures

Published

2015

138. Time-Reversal Symmetry Breaking Type-II Weyl State in YbMnBi2

Author

Borisenko, Sergey, Evtushinsky, Daniil, Gibson, Quinn, Yaresko, Alexander, Kim, Timur, Ali, M. N., Buechner, Bernd, Hoesch, Moritz, and Cava, Robert J.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science

Abstract

Detection of Dirac, Majorana and Weyl fermions in real materials may significantly strengthen the bridge between high-energy and condensed-matter physics. While the presence of Dirac fermions is well established in graphene and topological insulators, Majorana particles have been reported recently and evidence for Weyl fermions in non-centrosymmetric crystals has been found only a couple of months ago, the 'magnetic' Weyl fermions are still elusive despite numerous theoretical predictions and intense experimental search. In order to detect a time-reversal symmetry breaking Weyl state we designed two materials with Fermi velocities superior to that of graphene and present here the experimental evidence of the realization of such a state in one of them, YbMnBi2. We model the time reversal symmetry breaking observed by magnetization measurements by a canted antiferromagnetic state and find a number of Weyl points both above and below the Fermi level. Using angle-resolved photoemission, we directly observe these latter Weyl points and a hallmark of the exotic state - the arc of the surface states which connects these points. Our results not only provide a fundamental link between the two areas of physics, but also demonstrate the practical way to design novel materials with exotic properties., Comment: Version resubmitted to Nature on the 9th of November 2015

Published

2015

139. Pseudospin heat conductivity in the $J_\mathrm{eff} = 1/2$ antiferromagnet Sr$_2$IrO$_4$

Author

Steckel, Frank, Matsumoto, Akiyo, Takayama, Tomohiro, Tagaki, Hidenori, Büchner, Bernd, and Hess, Christian

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report the in-plane and out-of-plane heat conductivity of the antiferromagnetic spin-orbit induced Mott insulator Sr$_2$IrO$_4$ with $J_\mathrm{eff} = 1/2$. Our data reveal clear-cut evidence for magnetic heat transport within the IrO$_2$ planes which provides the unique possibility to analyze the thermal occupation and scattering of $J_\mathrm{eff} = 1/2$ pseudospin excitations. The analysis of the magnetic heat conductivity yields a low-temperature ($T \lesssim 75$ K) magnetic mean free path $l_\mathrm{mag} \sim 32$ nm, consistent with boundary scattering. Upon heating towards room temperature, the mean free path strongly decreases by one order of magnitude due to thermally activated scattering of the pseudospin excitations. The latter reveals that the coupling of these excitations to the lattice is radically different from that of $S = 1/2$-excitations in cuprate analogs.

Published

2015

140. Investigation of the dispersion and the effective masses of excitons in bulk 2H-MoS2 using transition electron energy-loss spectroscopy

Author

Habenicht, Carsten, Knupfer, Martin, and Büchner, Bernd

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We have investigated the electronic excitations in bulk 2H-MoS2 using electron energy-loss spectroscopy. The electron energy-loss spectra in the {\Gamma}M and {\Gamma}K directions were measured for various momentum transfer values. The results allow the identification of the A1 and B1 exciton peaks and in particular their energy-momentum dispersion. The dispersions exhibit approximately quadratic upward trends and slight anisotropies in the {\Gamma}M and {\Gamma}K directions. The fitted energy-momentum transfer functions allow the estimation of the effective masses of the excitons which are in close proximity to predicted values., Comment: 6 pages, 5 figures

Published

2015

141. Microscopic coexistence of superconductivity and magnetism in Ca1-xNaxFe2As2

Author

Materne, Philipp, Kamusella, Sirko, Sarkar, Rajib, Goltz, Til, Spehling, Johannes, Maeter, Hemke, Harnagea, Luminita, Wurmehl, Sabine, Buechner, Bernd, Luetkens, Hubertus, Timm, Carsten, and Klauss, Hans-Henning

Subjects

Condensed Matter - Superconductivity

Abstract

We present a detailed investigation of the magnetic and superconducting properties of Ca1-xNaxFe2As2 single crystals with x = 0.00, 0.35, 0.50, and 0.67 by means of the local probe techniques Moessbauer spectroscopy and muon spin relaxation experiments. With increasing Na substitution level, the magnetic order parameter as well as the magneto-structural phase transition are suppressed. For x = 0.50 we find a microscopic coexistence of magnetic and superconducting phases accompanied by a reduction of the magnetic order parameter below the superconducting transition temperature Tc. A systematic comparison with other 122 pnictides reveals a square-root correlation between the reduction of the magnetic order parameter and the ratio of the transition temperatures, Tc/TN, which can be understood in the framework of a Landau theory. In the optimally doped sample with Tc = 34 K, diluted magnetism is found and the temperature dependence of the penetration depth and superfluid density are obtained, proving the presence of two superconducting s-wave gaps, Comment: 14 pages, 14 figures

Published

2015

142. Pseudo-ballistic transport in 3D topological insulator quantum wires

Author

Dufouleur, Joseph, Veyrat, Louis, Xypakis, Emmanouil, Bardarson, Jens H., Nowka, Christian, Hampel, Silke, Eichler, Barbara, Schmidt, Oliver G., Büchner, Bernd, and Giraud, Romain

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Quantum conductance fluctuations are investigated in disordered 3D topological insulator quantum wires. Both experiments and theory reveal a new transport regime in a mesoscopic conductor, pseudo-ballistic transport, for which ballistic properties persist beyond the transport mean free path, characteristic of diffusive transport. It results in non-universal conductance fluctuations due to quasi-1D surface modes, as observed in long and narrow Bi$_2$Se$_3$ nanoribbons. Spin helical Dirac fermions in quantum wires retain pseudo-ballistic properties over an unusually broad energy range, due to strong quantum confinement and weak momentum scattering., Comment: Main text,4 figures; Supplementary Information, 3 figures

Published

2015

143. Low-Noise YBa$_2$Cu$_3$O$_7$ NanoSQUIDs for Performing Magnetization-Reversal Measurements on Magnetic Nanoparticles

Author

Schwarz, Tobias, Wölbing, Roman, Reiche, Christopher F., Müller, Benedikt, Martínez-Pérez, Maria-José, Mühl, Thomas, Büchner, Bernd, Kleiner, Reinhold, and Koelle, Dieter

Subjects

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

Abstract

We fabricated YBa$_2$Cu$_3$O$_7$ (YBCO) direct current (dc) nano superconducting quantum interference devices (nanoSQUIDs) based on grain boundary Josephson junctions by focused ion beam patterning. Characterization of electric transport and noise properties at 4.2$\,$K in magnetically shielded environment yields a very small inductance $L$ of a few pH for an optimized device geometry. This in turn results in very low values of flux noise $<50\,{\rm n}\Phi_0/{\rm Hz}^{1/2}$ in the thermal white noise limit, which yields spin sensitivities of a few $\mu_{\rm B}/{\rm Hz}^{1/2}$ ($\Phi_0$ is the magnetic flux quantum and $\mu_{\rm B}$ is the Bohr magneton). We observe frequency-dependent excess noise up to 7$\,$MHz, which can only partially be eliminated by bias reversal readout. This indicates the presence of fluctuators of unknown origin, possibly related to defect-induced spins in the SrTiO$_3$ substrate. We demonstrate the potential of using YBCO nanoSQUIDs for the investigation of small spin systems, by placing a 39$\,$nm diameter Fe nanowire, encapsulated in a carbon nanotube, on top of a non-optimized YBCO nanoSQUID and by measuring the magnetization reversal of the Fe nanowire via the change of magnetic flux coupled to the nanoSQUID. The measured flux signals upon magnetization reversal of the Fe nanowire are in very good agreement with estimated values, and the determined switching fields indicate magnetization reversal of the nanowire via curling mode., Comment: 10 pages, 5 figure and supplemental material (4 pages)

Published

2015

144. Crystal growth and the electronic phase diagram of the 4$d$ doped Na$_{1-\delta}$Fe$_{1-x}$Rh$_x$As in comparison with 3$d$ doped Na$_{1-\delta}$Fe$_{1-x}$Co$_x$As

Author

Steckel, Frank, Roslova, Maria, Beck, Robert, Morozov, Igor, Aswartham, Saicharan, Evtushinsky, Daniil, Blum, Christian G. F., Abdel-Hafiez, Mahmoud, Bombor, Dirk, Maletz, Janek, Borisenko, Sergey, Shevelkov, Andrei V., Wolter, Anja U. B., Hess, Christian, Wurmehl, Sabine, and Büchner, Bernd

Subjects

Condensed Matter - Superconductivity

Abstract

Single crystals of Na$_{1-\delta}$Fe$_{1-x}$T$_x$As with T = Co, Rh have been grown using a self-flux technique. The crystals were thoroughly characterized by powder X-ray diffraction, magnetic susceptibility and electronic transport with particular focus on the Rh-doped samples. Measurements of the specific heat and ARPES were conducted exemplarily for the optimally doped compositions. The spin-density wave transition (SDW) observed for samples with low Rh concentration ($0\,\leq\,x\,\leq\,0.013$) is fully suppressed in the optimally doped sample. The superconducting transition temperature ($T_c$) is enhanced from $10$~K in Na$_{1-\delta}$FeAs to $21$~K in the optimally doped sample ($x$ = 0.019) of the Na$_{1-\delta}$Fe$_{1-x}$Rh$_x$As series and decreases for the overdoped compounds, revealing a typical shape for the superconducting part of the electronic phase diagram. Remarkably, the phase diagram is almost identical to that of Co-doped Na$_{1-\delta}$FeAs, suggesting a generic phase diagram for both dopants., Comment: 9 pages, 12 figures

Published

2015

145. ZnO–Graphene Oxide Nanocomposite for Paclitaxel Delivery and Enhanced Toxicity in Breast Cancer Cells.

Author

Madeo, Lorenzo Francesco, Schirmer, Christine, Cirillo, Giuseppe, Asha, Ayah Nader, Ghunaim, Rasha, Froeschke, Samuel, Wolf, Daniel, Curcio, Manuela, Tucci, Paola, Iemma, Francesca, Büchner, Bernd, Hampel, Silke, and Mertig, Michael

Subjects

SCANNING transmission electron microscopy, X-ray powder diffraction, TRANSMISSION electron microscopy, ZINC oxide, GRAPHENE oxide, PACLITAXEL

Abstract

A ZnO-Graphene oxide nanocomposite (Z-G) was prepared in order to exploit the biomedical features of each component in a single anticancer material. This was achieved by means of an environmentally friendly synthesis, taking place at a low temperature and without the involvement of toxic reagents. The product was physicochemically characterized. The ZnO-to-GO ratio was determined through thermogravimetric analysis, while scanning electron microscopy and transmission electron microscopy were used to provide insight into the morphology of the nanocomposite. Using energy-dispersive X-ray spectroscopy, it was possible to confirm that the graphene flakes were homogeneously coated with ZnO. The crystallite size of the ZnO nanoparticles in the new composite was determined using X-ray powder diffraction. The capacity of Z-G to enhance the toxicity of the anticancer drug Paclitaxel towards breast cancer cells was assessed via a cell viability study, showing the remarkable anticancer activity of the obtained system. Such results support the potential use of Z-G as an anticancer agent in combination with a common chemotherapeutic like Paclitaxel, leading to new chemotherapeutic formulations. [ABSTRACT FROM AUTHOR]

Published

2024

146. Access to the full three-dimensional Brillouin zone with time resolution, using a new tool for pump–probe angle-resolved photoemission spectroscopy.

Author

Majchrzak, Paulina, Zhang, Yu, Kuibarov, Andrii, Chapman, Richard, Wyatt, Adam, Springate, Emma, Borisenko, Sergey, Büchner, Bernd, Hofmann, Philip, and Sanders, Charlotte E.

Subjects

PHOTOELECTRON spectroscopy, BRILLOUIN zones, UNITS of time, PUMPING machinery

Abstract

Here, we report the first time- and angle-resolved photoemission spectroscopy (TR-ARPES) with the new Fermiologics "FeSuMa" analyzer. The new experimental setup has been commissioned at the Artemis laboratory of the UK Central Laser Facility. We explain here some of the advantages of the FeSuMa for TR-ARPES and discuss how its capabilities relate to those of hemispherical analyzers and momentum microscopes. We have integrated the FeSuMa into an optimized pump–probe beamline that permits photon-energy (i.e., kz)-dependent scanning, using probe energies generated from high harmonics in a gas jet. The advantages of using the FeSuMa in this situation include the possibility of taking advantage of its "fisheye" mode of operation. [ABSTRACT FROM AUTHOR]

Published

2024

147. La6Pd2+xSb15 (x = 0.28): A rare-earth palladium intermetallic compound with extended pnictogen ribbons

Author

Sturza, Mihai I., Amigó, M. Lourdes, Facio, Jorge I., Caglieris, Federico, Aswartham, Saicharan, Seiro, Silvia, Hess, Christian, van den Brink, Jeroen, Wurmehl, Sabine, and Büchner, Bernd

Published

2020

148. Floating Zone Growth of Pure and Pb-Doped Bi-2201 Crystals

Author

Roslova, Maria, primary, Büchner, Bernd, additional, and Maljuk, Andrey, additional

Published

2024

149. On the growth and characterization of SmOFe1−xCoxAs single crystals

Author

Anger, Felix, primary, Sturza, Mihai-Ionut, additional, Firouzmandi, Reza, additional, Kocsis, Vilmos, additional, Wolter-Giraud, Anja U.B., additional, Büchner, Bernd, additional, and Wurmehl, Sabine, additional

Published

2024

150. Linear colossal magnetoresistance and magnetic textures in LaTiO3 thin films on SrTiO3

Author

Tschirner, Teresa, primary, Leikert, Berengar, additional, Kern, Felix, additional, Wolf, Daniel, additional, Lubk, Axel, additional, Kamp, Martin, additional, Miller, Kirill, additional, Hartmann, Fabian, additional, Höfling, Sven, additional, Gabel, Judith, additional, Schmitt, Matthias, additional, Stübinger, Martin, additional, Küspert, Julia, additional, Lee, Tien-Lin, additional, Büchner, Bernd, additional, Dufouleur, Joseph, additional, Gabay, Marc, additional, Sing, Michael, additional, Claessen, Ralph, additional, and Veyrat, Louis, additional

Published

2023