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2. Observation of a singular Weyl point surrounded by charged nodal walls in PtGa

Author

Ma, J. -Z., Wu, Q. -S., Song, M., Zhang, S. -N., Guedes, E. B., Ekahana, S. A., Krivenkov, M., Yao, M. Y., Gao, S. -Y., Fan, W. -H., Qian, T., Ding, H., Plumb, N. C., Radovic, M., Dil, J. H., Xiong, Y. -M., Manna, K., Felser, C., Yazyev, O. V., and Shi, M.

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

Constrained by the Nielsen-Ninomiya no-go theorem, in all so-far experimentally determined Weyl semimetals (WSMs) the Weyl points (WPs) always appear in pairs in the momentum space with no exception. As a consequence, Fermi arcs occur on surfaces which connect the projections of the WPs with opposite chiral charges. However, this situation can be circumvented in the case of unpaired WP, without relevant surface Fermi arc connecting its surface projection, appearing singularly, while its Berry curvature field is absorbed by nontrivial charged nodal walls. Here, combining angle-resolved photoemission spectroscopy with density functional theory calculations, we show experimentally that a singular Weyl point emerges in PtGa at the center of the Brillouin zone (BZ), which is surrounded by closed Weyl nodal walls located at the BZ boundaries and there is no Fermi arc connecting its surface projection. Our results reveal that nontrivial band crossings of different dimensionalities can emerge concomitantly in condensed matter, while their coexistence ensures the net topological charge of different dimensional topological objects to be zero. Our observation extends the applicable range of the original Nielsen-Ninomiya no-go theorem which was derived from zero dimensional paired WPs with opposite chirality., Comment: 24 pages, 4 figures

Published
2021
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3. Rich Nature of Van Hove Singularities in Kagome Superconductor CsV$_3$Sb$_5$

Author

Hu, Yong, Wu, Xianxin, Ortiz, Brenden R., Ju, Sailong, Han, Xinlong, Ma, J. Z., Plumb, N. C., Radovic, Milan, Thomale, Ronny, Wilson, S. D., Schnyder, Andreas P., and Shi, M.

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

The recently discovered layered kagome metals AV$_3$Sb$_5$ (A=K, Rb, Cs) exhibit diverse correlated phenomena, which are intertwined with a topological electronic structure with multiple van Hove singularities (VHSs) in the vicinity of the Fermi level. As the VHSs with their large density of states enhance correlation effects, it is of crucial importance to determine their nature and properties. Here, we combine polarization-dependent angle-resolved photoemission spectroscopy with density functional theory to directly reveal the sublattice properties of 3d-orbital VHSs in CsV$_3$Sb$_5$. Four VHSs are identified around the M point and three of them are close to the Fermi level, with two having sublattice-pure and one sublattice-mixed nature. Remarkably, the VHS just below the Fermi level displays an extremely flat dispersion along MK, establishing the experimental discovery of higher-order VHS. The characteristic intensity modulation of Dirac cones around K further demonstrates the sublattice interference embedded in the electronic structure. The crucial insights into the electronic structure, revealed by our work, provide a solid starting point for the understanding of the intriguing correlation phenomena in the kagome metals AV$_3$Sb$_5$.

Published
2021
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4. Charge-order-assisted topological surface states and flat bands in the kagome superconductor CsV$_3$Sb$_5$

Author

Hu, Yong, Teicher, Samuel M. L., Ortiz, Brenden R., Luo, Yang, Peng, Shuting, Huai, Linwei, Ma, J. Z., Plumb, N. C., Wilson, Stephen D., He, J. -F., and Shi, M.

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

The diversity of emergent phenomena in quantum materials often arises from the interplay between different physical energy scales or broken symmetries. Cooperative interactions among them are rare; however, when they do occur, they often stabilize fundamentally new ground states or phase behaviors. For instance, a pair density wave can form when the superconducting order parameter borrows spatial periodical variation from charge order; a topological superconductor can arise when topologically nontrivial electronic states proximitize with or participate in the formation of the superconducting condensate. Here, we report spectroscopic evidence for a unique synergy of topology and correlation effects in the kagome superconductor CsV$_3$Sb$_5$ - one where topologically nontrivial surface states are pushed below the Fermi energy (E$_F$) by charge order, making the topological physics active near E$_F$ upon entering the superconducting state. Flat bands are observed, indicating that electron correlation effects are also at play in this system. Our results reveal the peculiar electronic structure of CsV$_3$Sb$_5$, which holds the potential for realizing Majorana zero modes and anomalous superconducting states in kagome lattices. They also establish CsV$_3$Sb$_5$ as a unique platform for exploring the cooperation between the charge order, topology, correlation effects and superconductivity.

Published
2021
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5. Anomalous Hall resistivity and possible topological Hall effect in the EuAl$_4$ antiferromagnet

Author

Shang, T., Xu, Y., Gawryluk, D. J., Ma, J. Z., Shiroka, T., Shi, M., and Pomjakushina, E.

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

We report the observation of anomalous Hall resistivity in single crystals of EuAl$_4$, a centrosymmetric tetragonal compound, which exhibits coexisting antiferromagnetic (AFM) and charge-density-wave (CDW) orders with onset at $T_\mathrm{N} \sim 15.6$ K and $T_\mathrm{CDW} \sim 140$ K, respectively. In the AFM state, when the magnetic field is applied along the $c$-axis direction, EuAl$_4$ undergoes a series of metamagnetic transitions. Within this field range, we observe a clear hump-like anomaly in the Hall resistivity, representing part of the anomalous Hall resistivity. By considering different scenarios, we conclude that such a hump-like feature is most likely a manifestation of the topological Hall effect, normally occurring in noncentrosymmetric materials known to host nontrivial topological spin textures. In view of this, EuAl$_4$ would represent a rare case where the topological Hall effect not only arises in a centrosymmetric structure, but it also coexists with CDW order., Comment: 7 pages, 4 figures, accepted by Phys. Rev. B (R)

Published
2020
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6. Unconventional transverse transport above and below the magnetic transition temperature in Weyl semimetal EuCd$_2$As$_2$

Author

Xu, Y., Das, L., Ma, J. Z., Yi, C. J., Nie, S. M., Shi, Y. G., Tiwari, A., Tsirkin, S. S., Neupert, T., Medarde, M., Shi, M., Chang, J., and Shang, T.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

As exemplified by the growing interest in the quantum anomalous Hall effect, the research on topology as an organizing principle of quantum matter is greatly enriched from the interplay with magnetism. In this vein, we present a combined electrical and thermoelectrical transport study on the magnetic Weyl semimetal EuCd$_2$As$_2$. Unconventional contribution to the anomalous Hall and anomalous Nernst effects were observed both above and below the magnetic transition temperature of EuCd$_2$As$_2$, indicating the existence of significant Berry curvature. EuCd$_2$As$_2$ represents a rare case in which this unconventional transverse transport emerges both above and below the magnetic transition temperature in the same material. The transport properties evolve with temperature and field in the antiferromagnetic phase in a different manner than in the paramagnetic phase, suggesting different mechanisms to their origin. Our results indicate EuCd$_2$As$_2$ is a fertile playground for investigating the interplay between magnetism and topology, and potentially a plethora of topologically nontrivial phases rooted in this interplay.

Published
2020
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8. Spin fluctuation induced Weyl semimetal state in the paramagnetic phase of EuCd$_2$As$_2$

Author

Ma, J. -Z., Nie, S. M., Yi, C. J., Jandke, J., Shang, T., Yao, M. Y., Naamneh, M., Yan, L. Q., Sun, Y., Chikina, A., Strocov, V. N., Medarde, M., Song, M., Xiong, Y. -M., Xu, G., Wulfhekel, W., Mesot, J., Reticcioli, M., Franchini, C., Mudry, C., Müller, M., Shi, Y. G., Qian, T., Ding, H., and Shi, M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Weyl fermions as emergent quasiparticles can arise in Weyl semimetals (WSMs) in which the energy bands are nondegenerate, resulting from inversion or time-reversal symmetry breaking. Nevertheless, experimental evidence for magnetically induced WSMs is scarce. Here, using photoemission spectroscopy, we observe that the degeneracy of Bloch bands is already lifted in the paramagnetic phase of EuCd$_2$As$_2$. We attribute this effect to the itinerant electrons experiencing quasistatic and quasi-long-range ferromagnetic fluctuations. Moreover, the spin nondegenerate band structure harbors a pair of ideal Weyl nodes near the Fermi level. Hence, we show that long-range magnetic order and the spontaneous breaking of time-reversal symmetry are not an essential requirement for WSM states in centrosymmetric systems, and that WSM states can emerge in a wider range of condensed-matter systems than previously thought., Comment: 34 pages,12 figures

Published
2019
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9. Moderate hybridization effects revealed by ARPES in heavy-fermion Ce2IrIn8

Author

Liu, H. -J., Xu, Y. -J., Zhong, Y. -G., Guan, J. -Y., Kong, L. -Y., Ma, J. -Z., Huang, Y. -B., Chen, Q. -Y., Chen, G. -F., Shi, M., Yang, Y. -F., and Ding, H.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We utilized high-resolution resonant angle-resolved photoemission spectroscopy (ARPES) to study the band structure and hybridization effect of the heavy-fermion compound Ce2IrIn8. We observe a nearly flat band at the binding energy of 7 meV below the coherent temperature Tcoh ~ 40 K, which characterizes the electrical resistance maximum indicating the onset temperature of hybridization. However, the Fermi vector kF and the Fermi surface (FS) volume have little change around Tcoh, challenging the widely believed evolution from a high-temperature small FS to a low-temperature large FS. Our experimental results of the band structure fit well with the density functional theory plus dynamic mean-field theory (DFT+DMFT) calculations.

Published
2019

10. Anisotropic Correlated Electronic Structure of Colossal Thermopower Marcasite FeSb$_2$

Author

Chikina, A., Ma, J. -Z., Brito, W. H., Choi, S., Du, Q., Jandke, J., Liu, H., Plumb, N. C., Shi, M., Petrovic, C., Radovic, M., and Kotliar, G.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Iron antimonide (FeSb$_2$) is a mysterious material with peculiar colossal thermopower of about $-45$ mV/K at 10 K. However, a unified microscopic description of this phenomenon is far from being achieved. The understanding of the electronic structure in details is crucial in identifying the microscopic mechanism of FeSb$_2$ thermopower. Combining angle-resolved photoemission spectroscopy (ARPES) and first-principles calculations we find that the spectrum of FeSb$_2$ consists of two bands near the Fermi energy: the nondispersive strongly renormalized $\alpha$-band, and the hole-like $\beta$-band that intersects the first one at $\Gamma$ and Y points of the Brillouin zone. Our study reveals the presence of sizable correlations, predominantly among electrons derived from Fe-3d states, and considerable anisotropy in the electronic structure of FeSb$_2$. These key ingredients are of fundamental importance in the description of colossal thermopower in FeSb$_2$.

Published
2018
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11. Three-component fermions with surface Fermi arcs in topological semimetal tungsten carbide

Author

Ma, J. -Z., He, J. -B., Xu, Y. -F., Lv, B. -Q., Chen, D., Zhu, W. -L., Zhang, S., Kong, L. -Y., Gao, X., Rong, L. -Y., Huang, Y. -B., Richard, P., Xi, C. -Y., Shao, Y., Wang, Y. -L., Gao, H. -J., Dai, X., Fang, C., Weng, H. -M., Chen, G. -F., Qian, T., and Ding, H.

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

Topological Dirac and Weyl semimetals not only host quasiparticles analogous to the elementary fermionic particles in high-energy physics, but also have nontrivial band topology manifested by exotic Fermi arcs on the surface. Recent advances suggest new types of topological semimetals, in which spatial symmetries protect gapless electronic excitations without high-energy analogy. Here we observe triply-degenerate nodal points (TPs) near the Fermi level of WC, in which the low-energy quasiparticles are described as three-component fermions distinct from Dirac and Weyl fermions. We further observe the surface states whose constant energy contours are pairs of Fermi arcs connecting the surface projection of the TPs, proving the nontrivial topology of the newly identified semimetal state., Comment: 4 figures

Published
2017
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12. Atomically precise lateral modulation of a two-dimensional electron liquid in anatase TiO2 thin films

Author

Wang, Z., Zhong, Z., Walker, S. McKeown, Ristic, Z., Ma, J. -Z., Bruno, F. Y., Ricco, S., Sangiovanni, G., Eres, G., Plumb, N. C., Patthey, L., Shi, M., Mesot, J., Baumberger, F., and Radovic, M.

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

Engineering the electronic band structure of two-dimensional electron liquids (2DELs) confined at the surface or interface of transition metal oxides is key to unlocking their full potential. Here we describe a new approach to tailoring the electronic structure of an oxide surface 2DEL demonstrating the lateral modulation of electronic states with atomic scale precision on an unprecedented length scale comparable to the Fermi wavelength. To this end, we use pulsed laser deposition to grow anatase TiO2 films terminated by a (1 x 4) in-plane surface reconstruction. Employing photo-stimulated chemical surface doping we induce 2DELs with tunable carrier densities that are confined within a few TiO2 layers below the surface. Subsequent in-situ angle resolved photoemission experiments demonstrate that the (1 x 4) surface reconstruction provides a periodic lateral perturbation of the electron liquid. This causes strong backfolding of the electronic bands, opening of unidirectional gaps and a saddle point singularity in the density of states near the chemical potential.

Published
2017
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13. Evidence of topological insulator state in the semimetal LaBi

Author

Lou, R., Fu, B. -B., Xu, Q. N., Guo, P. -J., Kong, L. -Y., Zeng, L. -K., Ma, J. -Z., Richard, P., Fang, C., Huang, Y. -B., Sun, S. -S., Wang, Q., Wang, L., Shi, Y. -G., Lei, H. C., Liu, K., Weng, H. M., Qian, T., Ding, H., and Wang, S. -C.

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

By employing angle-resolved photoemission spectroscopy combined with first-principles calculations, we performed a systematic investigation on the electronic structure of LaBi, which exhibits extremely large magnetoresistance (XMR), and is theoretically predicted to possess band anticrossing with nontrivial topological properties. Here, the observations of the Fermi-surface topology and band dispersions are similar to previous studies on LaSb [Phys. Rev. Lett. 117, 127204 (2016)], a topologically trivial XMR semimetal, except the existence of a band inversion along the $\Gamma$-$X$ direction, with one massless and one gapped Dirac-like surface state at the $X$ and $\Gamma$ points, respectively. The odd number of massless Dirac cones suggests that LaBi is analogous to the time-reversal $Z_2$ nontrivial topological insulator. These findings open up a new series for exploring novel topological states and investigating their evolution from the perspective of topological phase transition within the family of rare-earth monopnictides., Comment: 6 pages, 4 figures

Published
2016
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15. Experimental Observation of Three-Component 'New Fermions' in Topological Semimetal MoP

Author

Lv, B. Q., Feng, Z. -L., Xu, Q. -N., Ma, J. -Z., Kong, L. -Y., Richard, P., Huang, Y. -B., Strocov, V. N., Fang, C., Weng, H. -M., Shi, Y. -G., Qian, T., and Ding, H.

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

Condensed matter systems can host quasiparticle excitations that are analogues to elementary particles such as Majorana, Weyl, and Dirac fermions. Recent advances in band theory have expanded the classification of fermions in crystals, and revealed crystal symmetry-protected electron excitations that have no high-energy counterparts. Here, using angle-resolved photoemission spectroscopy, we demonstrate the existence of a triply degenerate point in the electronic structure of MoP crystal, where the quasiparticle excitations are beyond the Majorana-Weyl-Dirac classification. Furthermore, we observe pairs of Weyl points in the bulk electronic structure coexisting with the 'new fermions', thus introducing a platform for studying the interplay between different types of fermions., Comment: 12 pages, 4 figures

Published
2016
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16. Topologically entangled Rashba-split Shockley states on the surface of grey arsenic

Author

Zhang, Peng, Ma, J. -Z., Ishida, Y., Zhao, L. -X., Xu, Q. -N., Lv, B. -Q., Yaji, K., Chen, G. -F., Weng, H. -M., Dai, X., Fang, Z., Chen, X. -Q., Fu, L., Qian, T., Ding, H., and Shin, S.

Subjects
Condensed Matter - Materials Science
Abstract

We discover a pair of spin-polarized surface bands on the (111) face of grey arsenic by using angle-resolved photoemission spectroscopy (ARPES). In the occupied side, the pair resembles typical nearly-free-electron Shockley states observed on noble-metal surfaces. However, pump-probe ARPES reveals that the spin-polarized pair traverses the bulk band gap and that the crossing of the pair at $\bar\Gamma$ is topologically unavoidable. First-principles calculations well reproduce the bands and their non-trivial topology; the calculations also support that the surface states are of Shockley type because they arise from a band inversion caused by crystal field. The results provide compelling evidence that topological Shockley states are realized on As(111)., Comment: 5 pages, 4 figures

Published
2016
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17. Experimental Discovery of the First Nonsymmorphic Topological Insulator KHgSb

Author

Ma, J. -Z., Yi, C. -J., Lv, B. Q., Wang, Z. J., Nie, S. -M., Wang, L., Kong, L. -Y., Huang, Y. -B., Richard, P., Weng, H. -M., Bernevig, B. A., Shi, Y. -G., Qian, T., and Ding, H.

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

Topological insulators (TIs) host novel states of quantum matter, distinguished from trivial insulators by the presence of nontrivial conducting boundary states connecting the valence and conduction bulk bands. Up to date, all the TIs discovered experimentally rely on the presence of either time reversal or symmorphic mirror symmetry to protect massless Dirac-like boundary states. Very recently, it has been theoretically proposed that several materials are a new type of TIs protected by nonsymmorphic symmetry, where glide-mirror can protect novel exotic surface fermions with hourglass-shaped dispersion. However, an experimental confirmation of such new nonsymmorphic TI (NSTI) is still missing. Using angle-resolved photoemission spectroscopy, we reveal that such hourglass topology exists on the (010) surface of crystalline KHgSb while the (001) surface has no boundary state, which is fully consistent with first-principles calculations. We thus experimentally demonstrate that KHgSb is a NSTI hosting hourglass fermions. By expanding the classification of topological insulators, this discovery opens a new direction in the research of nonsymmorphic topological properties of materials., Comment: 15 pages, 4 figures

Published
2016
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18. Compensated semimetal LaSb with unsaturated magnetoresistance

Author

Zeng, L. -K., Lou, R., Wu, D. -S., Xu, Q. N., Guo, P. -J., Kong, L. -Y., Zhong, Y. -G., Ma, J. -Z., Fu, B. -B., Richard, P., Wang, P., Liu, G. T., Lu, L., Huang, Y. -B., Fang, C., Sun, S. -S., Wang, Q., Wang, L., Shi, Y. -G., Weng, H. M., Lei, H. -C., Liu, K., Wang, S. -C., Qian, T., Luo, J. -L., and Ding, H.

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

By combining angle-resolved photoemission spectroscopy and quantum oscillation measurements, we performed a comprehensive investigation on the electronic structure of LaSb, which exhibits near-quadratic extremely large magnetoresistance (XMR) without any sign of saturation at magnetic fields as high as 40 T. We clearly resolve one spherical and one intersecting-ellipsoidal hole Fermi surfaces (FSs) at the Brillouin zone (BZ) center $\Gamma$ and one ellipsoidal electron FS at the BZ boundary $X$. The hole and electron carriers calculated from the enclosed FS volumes are perfectly compensated, and the carrier compensation is unaffected by temperature. We further reveal that LaSb is topologically trivial but share many similarities with the Weyl semimetal TaAs family in the bulk electronic structure. Based on these results, we have examined the mechanisms that have been proposed so far to explain the near-quadratic XMR in semimetals., Comment: 6 pages, 3 figures

Published
2016
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19. Commensurate lattice distortion in the layered titanium oxypnictides Na$_{2}$Ti$_{2}Pn_{2}$O ($Pn =$ As, Sb) determined by X-ray diffraction

Author

Davies, N. R., Johnson, R. D., Princep, A. J., Gannon, L. A., Ma, J. -Z., Qian, T., Richard, P., Li, H., Nowell, H., Baker, P. J., Shi, Y. G., Ding, H., Luo, J., Guo, Y. F., and Boothroyd, A. T.

Subjects
Condensed Matter - Superconductivity
Abstract

We report single crystal X-ray diffraction measurements on Na$_2$Ti$_{2}Pn_{2}$O ($Pn$ = As, Sb) which reveal a charge superstructure that appears below the density wave transitions previously observed in bulk data. From symmetry-constrained structure refinements we establish that the associated distortion mode can be described by two propagation vectors, ${\bf q}_{1} = (1/2, 0, l)$ and ${\bf q}_{2} = (0, 1/2, l)$, with $l=0$ (Sb) or $l = 1/2$ (As), and primarily involves in-plane displacements of the Ti atoms perpendicular to the Ti--O bonds. The results provide direct evidence for phonon-assisted charge density wave order in Na$_2$Ti$_{2}Pn_{2}$O and identify a proximate ordered phase that could compete with superconductivity in doped BaTi$_{2}$Sb$_{2}$O.

Published
2016
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20. Observation of non-Fermi liquid behavior in hole-doped LiFe$_{1-x}$V$_x$As

Author

Xing, L. Y., Shi, X., Richard, P., Wang, X. C., Liu, Q. Q., Lv, B. Q., Ma, J. -Z., Fu, B. B., Kong, L. -Y., Miao, H., Qian, T., Kim, T. K., Hoesch, M., Ding, H., and Jin, C. Q.

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

We synthesized a series of V-doped LiFe$_{1-x}$V$_x$As single crystals. The superconducting transition temperature $T_c$ of LiFeAs decreases rapidly at a rate of 7 K per 1\% V. The Hall coefficient of LiFeAs switches from negative to positive with 4.2\% V doping, showing that V doping introduces hole carriers. This observation is further confirmed by the evaluation of the Fermi surface volume measured by angle-resolved photoemission spectroscopy (ARPES), from which a 0.3 hole doping per V atom introduced is deduced. Interestingly, the introduction of holes does not follow a rigid band shift. We also show that the temperature evolution of the electrical resistivity as a function of doping is consistent with a crossover from a Fermi liquid to a non-Fermi liquid. Our ARPES data indicate that the non-Fermi liquid behavior is mostly enhanced when one of the hole $d_{xz}/d_{yz}$ Fermi surfaces is well nested by the antiferromagnetic wave vector to the inner electron Fermi surface pocket with the $d_{xy}$ orbital character. The magnetic susceptibility of LiFe$_{1-x}$V$_x$As suggests the presence of strong magnetic impurities following V doping, thus providing a natural explanation to the rapid suppression of superconductivity upon V doping., Comment: 7 pages, 5 figures. See published version for the latest update

Published
2016
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21. Discovery of Weyl semimetal state violating Lorentz invariance in MoTe2

Author

Xu, N., Wang, Z. J., Weber, A. P., Magrez, A., Bugnon, P., Berger, H., Matt, C. E., Ma, J. Z., Fu, B. B., Lv, B. Q., Plumb, N. C., Radovic, M., Pomjakushina, E., Conder, K., Qian, T., Dil, J. H., Mesot, J., Ding, H., and Shi, M.

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

A new type of Weyl semimetal state, in which the energy values of Weyl nodes are not the local extrema, has been theoretically proposed recently, namely type II Weyl semimetal. Distinguished from type I semimetal (e.g. TaAs), the Fermi surfaces in a type II Weyl semimetal consist of a pair of electron and hole pockets touching at the Weyl node. In addition, Weyl fermions in type II Weyl semimetals violate Lorentz invariance. Due to these qualitative differences distinct spectroscopy and magnetotransport properties are expected in type II Weyl semimetals. Here, we present the direct observation of the Fermi arc states in MoTe2 by using angle resolved photoemission spectroscopy. Two arc states are identified for each pair of Weyl nodes whoes surface projections of them possess single topological charge, which is a unique property for type II Weyl semimetals. The experimentally determined Fermi arcs are consistent with our first principle calculations. Our results unambiguously establish that MoTe2 is a type II Weyl semimetal, which serves as a great test bed to investigate the phenomena of new type of Weyl fermions with Lorentz invariance violated., Comment: 16 pages, 4 figures

Published
2016

22. Emergence of topological bands on the surface of ZrSnTe crystal

Author

Lou, R., Ma, J. -Z., Xu, Q. -N., Fu, B. -B., Kong, L. -Y., Shi, Y. -G., Richard, P., Weng, H. -M., Fang, Z., Sun, S. -S., Wang, Q., Lei, H. -C., Qian, T., Ding, H., and Wang, S. -C.

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

By using angle-resolved photoemission spectroscopy combined with first-principles calculations, we reveal that the topmost unit cell of ZrSnTe crystal hosts two-dimensional (2D) electronic bands of topological insulator (TI) state, though such a TI state is defined with a curved Fermi level instead of a global band gap. Furthermore, we find that by modifying the dangling bonds on the surface through hydrogenation, this 2D band structure can be manipulated so that the expected global energy gap is most likely to be realized. This facilitates the practical applications of 2D TI in heterostructural devices and those with surface decoration and coverage. Since ZrSnTe belongs to a large family of compounds having the similar crystal and band structures, our findings shed light on identifying more 2D TI candidates and superconductor-TI heterojunctions supporting topological superconductors., Comment: 5 pages, 4 figures

Published
2016
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23. Experimental evidence of large-gap two-dimensional topological insulator on the surface of ZrTe5

Author

Wu, R., Ma, J. -Z., Zhao, L. -X., Nie, S. -M., Huang, X., Yin, J. -X., Fu, B. -B., Richard, P., Chen, G. -F., Fang, Z., Dai, X., Weng, H. -M., Qian, T., Ding, H., and Pan, S. H.

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

Two-dimensional (2D) topological insulators (TIs) with a large bulk band-gap are promising for experimental studies of the quantum spin Hall effect and for spintronic device applications. Despite considerable theoretical efforts in predicting large-gap 2D TI candidates, only few of them have been experimentally verified. Here, by combining scanning tunneling microscopy/spectroscopy and angle-resolved photoemission spectroscopy, we reveal that the top monolayer of ZrTe5 crystals hosts a large band gap of ~100 meV on the surface and a finite constant density-of-states within the gap at the step edge. Our first-principles calculations confirm the topologically nontrivial nature of the edge states. These results demonstrate that the top monolayer of ZrTe5 crystals is a large-gap 2D TI suitable for topotronic applications at high temperature., Comment: 15 pages, 4 figures, submitted on Dec 31, 2015

Published
2016
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24. Observation of high-Tc superconductivity in rectangular FeSe/STO(110) monolayer

Author

Zhang, P., Peng, X. -L., Qian, T., Richard, P., Shi, X., Ma, J. -Z., Fu, B. -B., Guo, Y. -L., Han, Z. Q., Wang, S. C., Wang, L. L., Xue, Q. -K., Hu, J. P., Sun, Y. -J., and Ding, H.

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

It is well known that superconductivity in Fe-based materials is favoured under tetragonal symmetry, whereas competing orders such as spin-density-wave (SDW) and nematic orders emerge or are reinforced upon breaking the fourfold (C4) symmetry. Accordingly, suppression of orthorhombicity below the superconducting transition temperature (Tc) is found in underdoped compounds. Epitaxial film growth on selected substrates allows the design of crystal specific lattice distortions. Here we show that despite the breakdown of the C4 symmetry induced by a 5% difference in the lattice parameters, monolayers of FeSe grown by molecular beam epitaxy (MBE) on the (110) surface of SrTiO3 (STO) substrates [FeSe/STO(110)] exhibit a large nearly isotropic superconducting (SC) gap of 16 meV closing around 60 K. Our results on this new interfacial material, similar to those obtained previously on FeSe/STO(001), contradict the common belief that the C4 symmetry is essential for reaching high Tc's in Fe-based superconductors.

Published
2015
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25. Observation of Weyl nodes in TaAs

Author

Lv, B. Q., Xu, N., Weng, H. M., Ma, J. Z., Richard, P., Huang, X. C., Zhao, L. X., Chen, G. F., Matt, C., Bisti, F., Strokov, V., Mesot, J., Fang, Z., Dai, X., Qian, T., Shi, M., and Ding, H.

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

In 1929, H. Weyl proposed that the massless solution of Dirac equation represents a pair of new type particles, the so-called Weyl fermions [1]. However the existence of them in particle physics remains elusive for more than eight decades. Recently, significant advances in both topological insulators and topological semimetals have provided an alternative way to realize Weyl fermions in condensed matter as an emergent phenomenon: when two non-degenerate bands in the three-dimensional momentum space cross in the vicinity of Fermi energy (called as Weyl nodes), the low energy excitation behaves exactly the same as Weyl fermions. Here, by performing soft x-ray angle-resolved photoemission spectroscopy measurements which mainly probe bulk band structure, we directly observe the long-sought-after Weyl nodes for the first time in TaAs, whose projected locations on the (001) surface match well to the Fermi arcs, providing undisputable experimental evidence of existence of Weyl fermion quasiparticles in TaAs., Comment: 10 pages, 4 figures, see also related papers on TaAs arXiv:1501.00060, arXiv:1502.04684

Published
2015
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26. Surface vs bulk electronic structures of a moderately correlated topological insulator YbB6 revealed by ARPES

Author

Xu, N., Matt, C. E., Pomjakushina, E., Dil, J. H., Landolt, G., Ma, J. -Z., Shi, X., Dhaka, R. S., Plumb, N. C., Radovic, M., Strocov, V. N., Kim, T. K., Hoesch, M., Conder, K., Mesot, J., Ding, H., and Shi, M.

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

Systematic angle-resolved photoemission spectroscopy (ARPES) experiments have been carried out to investigate the bulk and (100) surface electronic structures of a topological mixed-valence insulator candidate, YbB6. The bulk states of YbB6 were probed with bulk-sensitive soft X-ray ARPES, which show strong three-dimensionality as required by cubic symmetry. Surprisingly the measured Yb 4f states are located around 1 eV and 2.3 eV below the Fermi level (EF), instead of being near EF as indicated by first principle calculations. The dispersive bands near EF are B 2p states, which hybridize with the 4f states. Using surface-sensitive vacuum-ultraviolet ARPES, we revealed two-dimensional surface states which form three electron-like Fermi surfaces (FSs) with Dirac-cone-like dispersions. The odd number of surface FSs gives the first indication that YbB6 is a moderately correlated topological insulator. The spin-resolved ARPES measurements provide further evidence that these surface states are spin polarized with spin locked to the crystal momentum. We have observed a second set of surface states with different topology (hole-like pockets). Clear folding of the bands suggest their origin from a 1X2 reconstructed surface. The topological property of the reconstructed surface states needs further studies., Comment: 5 figures

Published
2014

28. Equivalent of a Thouless energy in lattice QCD Dirac spectra

Author

Berbenni, M. E., Guhr, T., Ma, J. -Z., Meyer, S., and Wilke, T.

Subjects
High Energy Physics - Lattice
Abstract

Random matrix theory (RMT) is a powerful statistical tool to model spectral fluctuations. In addition, RMT provides efficient means to separate different scales in spectra. Recently RMT has found application in quantum chromodynamics (QCD). In mesoscopic physics, the Thouless energy sets the universal scale for which RMT applies. We try to identify the equivalent of a Thouless energy in complete spectra of the QCD Dirac operator with staggered fermions and $SU_c(2)$ lattice gauge fields. Comparing lattice data with RMT predictions we find deviations which allow us to give an estimate for this scale., Comment: LATTICE99 (theor. devel.), 3 pages, 4 figures

Published
1999
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29. Statistical analysis and the equivalent of a Thouless energy in lattice QCD Dirac spectra

Author

Guhr, T., Ma, J. -Z., Meyer, S., and Wilke, T.

Subjects
High Energy Physics - Lattice
Abstract

Random Matrix Theory (RMT) is a powerful statistical tool to model spectral fluctuations. This approach has also found fruitful application in Quantum Chromodynamics (QCD). Importantly, RMT provides very efficient means to separate different scales in the spectral fluctuations. We try to identify the equivalent of a Thouless energy in complete spectra of the QCD Dirac operator for staggered fermions from SU(2) lattice gauge theory for different lattice size and gauge couplings. In disordered systems, the Thouless energy sets the universal scale for which RMT applies. This relates to recent theoretical studies which suggest a strong analogy between QCD and disordered systems. The wealth of data allows us to analyze several statistical measures in the bulk of the spectrum with high quality. We find deviations which allows us to give an estimate for this universal scale. Other deviations than these are seen whose possible origin is discussed. Moreover, we work out higher order correlators as well, in particular three--point correlation functions., Comment: 24 pages, 24 figures, all included except one figure, missing eps file available at http://pluto.mpi-hd.mpg.de/~wilke/diff3.eps.gz, revised version, to appear in PRD, minor modifications and corrected typos, Fig.4 revised

Published
1998
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30. Crossover to Non-universal Microscopic Spectral Fluctuations in Lattice Gauge Theory

Author

Berbenni-Bitsch, M. E., Göckeler, M., Guhr, T., Jackson, A. D., Ma, J. -Z., Meyer, S., Schäfer, A., Weidenmüller, H. A., Wettig, T., and Wilke, T.

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Lattice
Abstract

The spectrum of the Dirac operator near zero virtuality obtained in lattice gauge simulations is known to be universally described by chiral random matrix theory. We address the question of the maximum energy for which this universality persists. For this purpose, we analyze large ensembles of complete spectra of the Euclidean Dirac operator for staggered fermions. We calculate the disconnected scalar susceptibility and the microscopic number variance for the chiral symplectic ensemble of random matrices and compare the results with lattice Dirac spectra for quenched SU(2). The crossover to a non-universal regime is clearly identified and found to scale with the square of the linear lattice size and with $f_{\pi}^2$, in agreement with theoretical expectations., Comment: 11 pages, 7 figures, misprint in Eq. (13) corrected, minor modifications, to appear in Phys. Lett. B

Published
1998
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33. Scattering Characteristic Extraction Method for Manmade Target Based on Target Null Theory

Author

Lu, D. W., Ma, J. Z., Pang, B., Guan, Y. F., Feng, D. J., Lu, D. W., Ma, J. Z., Pang, B., Guan, Y. F., and Feng, D. J.

Abstract

Scattering characteristic extraction is an essential part of manmade target recognition. However, if two scattering points are in adjacent pixels, scattering characteristic extraction may fail to acquire accurate polarimetric scattering matrices (PSMs) of the weak scattering points due to the contamination caused by the strong scattering points. Target null theory provides a way to solve this problem. By selecting the transmitting and receiving polarization states of radar antennas simultaneously, the echo power of a strong scattering point becomes zero and the contamination effect is avoided. In this paper, a method based on target null theory for scattering characteristic extraction is proposed. First, we optimize the transmitting and receiving polarization states of the radar antenna to suppress the intensities of the strong scattering points to highlight the positions of the weak scattering points in certain polarimetric channels. Second, to suppress the contamination effects of strong scattering points in other polarimetric channels, we establish perturbation correction equations to erase the error generated by the point spread function (PSF) among adjacent scattering points in the radar image. Finally, the solved polarimetric scattering matrices of corresponding positions are implemented for target retrieval. The electromagnetic simulation results demonstrate the effectiveness of the proposed method.

Published
2023

37. Giant Chern number of a Weyl nodal surface without upper limit

Author

Ma, J.-Z., primary, Zhang, S.-N., additional, Song, J. P., additional, Wu, Q.-S., additional, Ekahana, S. A., additional, Naamneh, M., additional, Radovic, M., additional, Strocov, V. N., additional, Gao, S.-Y., additional, Qian, T., additional, Ding, H., additional, He, K., additional, Manna, K., additional, Felser, C., additional, Plumb, N. C., additional, Yazyev, O. V., additional, Xiong, Y.-M., additional, and Shi, M., additional

Published
2022
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39. Charge-order-assisted topological surface states and flat bands in the kagome superconductor CsV$_3$Sb$_5$

Author

Yong Hu, F He, J., Shi, M., Teicher, Samuel M. L., Ortiz, Brenden R., Yang Luo, Shuting Peng, Linwei Huai, Ma, J. Z., Plumb, N. C., and Wilson, Stephen D.

Subjects
Superconductivity (cond-mat.supr-con), Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons, Strongly Correlated Electrons (cond-mat.str-el), Condensed Matter - Superconductivity, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences
Abstract

The diversity of emergent phenomena in quantum materials often arises from the interplay between different physical energy scales or broken symmetries. Cooperative interactions among them are rare; however, when they do occur, they often stabilize fundamentally new ground states or phase behaviors. For instance, a pair density wave can form when the superconducting order parameter borrows spatial periodical variation from charge order; a topological superconductor can arise when topologically nontrivial electronic states proximitize with or participate in the formation of the superconducting condensate. Here, we report spectroscopic evidence for a unique synergy of topology and correlation effects in the kagome superconductor CsV$_3$Sb$_5$ - one where topologically nontrivial surface states are pushed below the Fermi energy (E$_F$) by charge order, making the topological physics active near E$_F$ upon entering the superconducting state. Flat bands are observed, indicating that electron correlation effects are also at play in this system. Our results reveal the peculiar electronic structure of CsV$_3$Sb$_5$, which holds the potential for realizing Majorana zero modes and anomalous superconducting states in kagome lattices. They also establish CsV$_3$Sb$_5$ as a unique platform for exploring the cooperation between the charge order, topology, correlation effects and superconductivity.

Published
2021

40. NUTRIENT RESPONSES OF CAREX SCHMIDTII TO CONSECUTIVE DROUGHT AND RE-FLOODING EPISODES IN SEMI-ARID WETLANDS: IMPLICATIONS FOR TUSSOCK RESTORATION.

Author

ZHANG, D. J., XIA, J. B., SUN, J. K., MA, J. Z., ZHAO, D. D., DUAN, D. X., WANG, X. H., and TONG, S. Z.

Subjects
DROUGHTS, WETLANDS, WETLAND plants, PLANT nutrients, DROUGHT management, WETLAND restoration, STOICHIOMETRY
Abstract

The regulation mechanism of wetland plants in response to consecutive drought (D) and re-flooding (RT) events can be identified via nutrient responses. Nutrient responses of Carex schmidtii were tested using a simulation experiment with five treatments: D, wetting (W) and RT resulted in C. schmidtii being re-flooded after 30, 40 and 60 days of drought. D and RT treatments partly affected nutrient stoichiometry of C. schmidtii. Plant nutrient stoichiometry experienced a shift of adaption from drought to flooding and making part or full recoveries after RT with reference to D and W treatments. Plant P concentration had a negative relationship with N:K ratio. D and RT effects on plant trade-offs and scaling exponents of C. schmidtii were profound; the scaling exponent of P~N increased with initial re-flooding time, while that of K~N decreased. Although nutrient trade-offs in D gradually differed from W and RT over time, the nutrient trade-offs of RT recovered with reference to W. The D and RT were recorded to contribute to nutrient flexibility of C. schmidtii; however, strong internal stability of stoichiometric relationships effectively relieved changes in plant nutrient stoichiometry. The findings aid our understanding of nutrient responses of C. schmidtii to D and RT. [ABSTRACT FROM AUTHOR]

Published
2022
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42. Observation of a singular Weyl point surrounded by charged nodal walls in PtGa

Author

Ma, J.-Z., primary, Wu, Q.-S., additional, Song, M., additional, Zhang, S.-N., additional, Guedes, E. B., additional, Ekahana, S. A., additional, Krivenkov, M., additional, Yao, M. Y., additional, Gao, S.-Y., additional, Fan, W.-H., additional, Qian, T., additional, Ding, H., additional, Plumb, N. C., additional, Radovic, M., additional, Dil, J. H., additional, Xiong, Y.-M., additional, Manna, K., additional, Felser, C., additional, Yazyev, O. V., additional, and Shi, M., additional

Published
2021
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43. Environmental drivers of Sphagnum growth in peatlands across the Holarctic region

Author

Bengtsson, F. (Fia), Rydin, H. (Hakan), Baltzer, J. L. (Jennifer L.), Bragazza, L. (Luca), Bu, Z.-J. (Zhao-Jun), Caporn, S. J. (Simon J. M.), Dorrepaal, E. (Ellen), Flatberg, K. I. (Kjell Ivar), Galanina, O. (Olga), Galka, M. (Mariusz), Ganeva, A. (Anna), Goia, I. (Irina), Goncharova, N. (Nadezhda), Hajek, M. (Michal), Haraguchi, A. (Akira), Harris, L. I. (Lorna I.), Humphreys, E. (Elyn), Jirousek, M. (Martin), Kajukalo, K. (Katarzyna), Karofeld, E. (Edgar), Koronatova, N. G. (Natalia G.), Kosykh, N. P. (Natalia P.), Laine, A. M. (Anna M.), Lamentowicz, M. (Mariusz), Lapshina, E. (Elena), Limpens, J. (Juul), Linkosalmi, M. (Maiju), Ma, J.-Z. (Jin-Ze), Mauritz, M. (Marguerite), Mitchell, E. A. (Edward A. D.), Munir, T. M. (Tariq M.), Natali, S. M. (Susan M.), Natcheva, R. (Rayna), Payne, R. J. (Richard J.), Philippov, D. A. (Dmitriy A.), Rice, S. K. (Steven K.), Robinson, S. (Sean), Robroek, B. J. (Bjorn J. M.), Rochefort, L. (Line), Singer, D. (David), Stenoien, H. K. (Hans K.), Tuittila, E.-S. (Eeva-Stiina), Vellak, K. (Kai), Waddington, J. M. (James Michael), Granath, G. (Gustaf), Bengtsson, F. (Fia), Rydin, H. (Hakan), Baltzer, J. L. (Jennifer L.), Bragazza, L. (Luca), Bu, Z.-J. (Zhao-Jun), Caporn, S. J. (Simon J. M.), Dorrepaal, E. (Ellen), Flatberg, K. I. (Kjell Ivar), Galanina, O. (Olga), Galka, M. (Mariusz), Ganeva, A. (Anna), Goia, I. (Irina), Goncharova, N. (Nadezhda), Hajek, M. (Michal), Haraguchi, A. (Akira), Harris, L. I. (Lorna I.), Humphreys, E. (Elyn), Jirousek, M. (Martin), Kajukalo, K. (Katarzyna), Karofeld, E. (Edgar), Koronatova, N. G. (Natalia G.), Kosykh, N. P. (Natalia P.), Laine, A. M. (Anna M.), Lamentowicz, M. (Mariusz), Lapshina, E. (Elena), Limpens, J. (Juul), Linkosalmi, M. (Maiju), Ma, J.-Z. (Jin-Ze), Mauritz, M. (Marguerite), Mitchell, E. A. (Edward A. D.), Munir, T. M. (Tariq M.), Natali, S. M. (Susan M.), Natcheva, R. (Rayna), Payne, R. J. (Richard J.), Philippov, D. A. (Dmitriy A.), Rice, S. K. (Steven K.), Robinson, S. (Sean), Robroek, B. J. (Bjorn J. M.), Rochefort, L. (Line), Singer, D. (David), Stenoien, H. K. (Hans K.), Tuittila, E.-S. (Eeva-Stiina), Vellak, K. (Kai), Waddington, J. M. (James Michael), and Granath, G. (Gustaf)

Abstract

1. The relative importance of global versus local environmental factors for growth and thus carbon uptake of the bryophyte genus Sphagnum—the main peat‐former and ecosystem engineer in northern peatlands—remains unclear. 2. We measured length growth and net primary production (NPP) of two abundant Sphagnum species across 99 Holarctic peatlands. We tested the importance of previously proposed abiotic and biotic drivers for peatland carbon uptake (climate, N deposition, water table depth and vascular plant cover) on these two responses. Employing structural equation models (SEMs), we explored both indirect and direct effects of drivers on Sphagnum growth. 3. Variation in growth was large, but similar within and between peatlands. Length growth showed a stronger response to predictors than NPP. Moreover, the smaller and denser Sphagnum fuscum growing on hummocks had weaker responses to climatic variation than the larger and looser Sphagnum magellanicum growing in the wetter conditions. Growth decreased with increasing vascular plant cover within a site. Between sites, precipitation and temperature increased growth for S. magellanicum. The SEMs indicate that indirect effects are important. For example, vascular plant cover increased with a deeper water table, increased nitrogen deposition, precipitation and temperature. These factors also influenced Sphagnum growth indirectly by affecting moss shoot density. 4. Synthesis. Our results imply that in a warmer climate, S. magellanicum will increase length growth as long as precipitation is not reduced, while S. fuscum is more resistant to decreased precipitation, but also less able to take advantage of increased precipitation and temperature. Such species‐specific sensitivity to climate may affect competitive outcomes in a changing environment, and potentially the future carbon sink function of peatlands.

Published
2021

44. Unconventional Transverse Transport above and below the Magnetic Transition Temperature in Weyl Semimetal EuCd2As2

Author

Xu, Y; https://orcid.org/0000-0002-4460-8013, Das, L, Ma, J Z; https://orcid.org/0000-0002-4648-3576, Yi, C J, Nie, S M, Shi, Y G, Tiwari, A, Tsirkin, Stepan S; https://orcid.org/0000-0001-5064-0485, Neupert, T, Medarde, M, Shi, M, Chang, J; https://orcid.org/0000-0002-4655-1516, Shang, T; https://orcid.org/0000-0002-5916-0020, Xu, Y; https://orcid.org/0000-0002-4460-8013, Das, L, Ma, J Z; https://orcid.org/0000-0002-4648-3576, Yi, C J, Nie, S M, Shi, Y G, Tiwari, A, Tsirkin, Stepan S; https://orcid.org/0000-0001-5064-0485, Neupert, T, Medarde, M, Shi, M, Chang, J; https://orcid.org/0000-0002-4655-1516, and Shang, T; https://orcid.org/0000-0002-5916-0020

Abstract

As exemplified by the growing interest in the quantum anomalous Hall effect, the research on topology as an organizing principle of quantum matter is greatly enriched from the interplay with magnetism. In this vein, we present a combined electrical and thermoelectrical transport study on the magnetic Weyl semimetal EuCd2As2. Unconventional contribution to the anomalous Hall and anomalous Nernst effects were observed both above and below the magnetic transition temperature of EuCd2As2, indicating the existence of significant Berry curvature. EuCd2As2 represents a rare case in which this unconventional transverse transport emerges both above and below the magnetic transition temperature in the same material. The transport properties evolve with temperature and field in the antiferromagnetic phase in a different manner than in the paramagnetic phase, suggesting different mechanisms to their origin. Our results indicate EuCd2As2 is a fertile playground for investigating the interplay between magnetism and topology, and potentially a plethora of topologically nontrivial phases rooted in this interplay.

Published
2021

47. Spin fluctuation induced Weyl semimetal state in the paramagnetic phase of EuCd2As2

Author

Ma, J.-Z., Nie, S. M., Yi, C. J., Jandke, J., Shang, T., Yao, M. Y., Naamneh, M., Yan, L. Q., Sun, Y., Chikina, A., Strocov, V. N., Medarde, M., Song, M., Xiong, Y.-M., Xu, G., Wulfhekel, W., Mesot, J., Reticcioli, M., Franchini, C., Mudry, C., Müller, M., Shi, Y. G., Qian, T., Ding, H., Shi, M., Ma J.-Z., Nie S.M., Yi C.J., Jandke J., Shang T., Yao M.Y., Naamneh M., Yan L.Q., Sun Y., Chikina A., Strocov V.N., Medarde M., Song M., Xiong Y.-M., Xu G., Wulfhekel W., Mesot J., Reticcioli M., Franchini C., Mudry C., Muller M., Shi Y.G., Qian T., Ding H., and Shi M.

Subjects
Condensed Matter::Quantum Gases, Strongly Correlated Electrons (cond-mat.str-el), High Energy Physics::Lattice, Physics, FOS: Physical sciences, SciAdv r-articles, Mathematics::Spectral Theory, Condensed Matter - Strongly Correlated Electrons, total-energy calculations, fermions, spin fluctuations, weyl fermions, ddc:530, Condensed Matter::Strongly Correlated Electrons, topological dirac semimetal, Mathematics::Representation Theory, discovery, Research Articles, Research Article
Abstract

Weyl fermions as emergent quasiparticles can arise in Weyl semimetals (WSMs) in which the energy bands are nondegenerate, resulting from inversion or time-reversal symmetry breaking. Nevertheless, experimental evidence for magnetically induced WSMs is scarce. Here, using photoemission spectroscopy, we observe that the degeneracy of Bloch bands is already lifted in the paramagnetic phase of EuCd2As2. We attribute this effect to the itinerant electrons experiencing quasi-static and quasi–long-range ferromagnetic fluctuations. Moreover, the spin-nondegenerate band structure harbors a pair of ideal Weyl nodes near the Fermi level. Hence, we show that long-range magnetic order and the spontaneous breaking of time-reversal symmetry are not essential requirements for WSM states in centrosymmetric systems and that WSM states can emerge in a wider range of condensed matter systems than previously thought., Science Advances, 5 (7), ISSN:2375-2548

Published
2019

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