TY - JOUR A1 - Tymoshenko, Y. V. A1 - Onykiienko, Y. A. A1 - Müller, T. A1 - Thomale, R. A1 - Rachel, S. A1 - Cameron, A. S. A1 - Portnichenko, P. Y. A1 - Efremov, D. V. A1 - Tsurkan, V. A1 - Abernathy, D. L. A1 - Ollivier, J. A1 - Schneidewind, A. A1 - Piovano, A. A1 - Felea, V. A1 - Loidl, A. A1 - Inosov, D. S. T1 - Pseudo-Goldstone magnons in the frustrated \(S=3/2\) Heisenberg helimagnet \(ZnCr_2Se_4\) with a pyrochlore magnetic sublattice JF - Physical Review X N2 - Low-energy spin excitations in any long-range ordered magnetic system in the absence of magnetocrystalline anisotropy are gapless Goldstone modes emanating from the ordering wave vectors. In helimagnets, these modes hybridize into the so-called helimagnon excitations. Here we employ neutron spectroscopy supported by theoretical calculations to investigate the magnetic excitation spectrum of the isotropic Heisenberg helimagnet \({ZnCr_2Se_4}\) with a cubic spinel structure, in which spin\(-3/2\) magnetic \({Cr^{3+}}\) ions are arranged in a geometrically frustrated pyrochlore sublattice. Apart from the conventional Goldstone mode emanating from the \((0~ 0~ {q_h})\) ordering vector, low-energy magnetic excitations in the single-domain proper-screw spiral phase show soft helimagnon modes with a small energy gap of \({∼0.17~ meV}\), emerging from two orthogonal wave vectors \(({q_h}~ 0~ 0)\) and \({(0~ {q_h}~ 0)}\) where no magnetic Bragg peaks are present. We term them pseudo-Goldstone magnons, as they appear gapless within linear spinwave theory and only acquire a finite gap due to higher-order quantum-fluctuation corrections. Our results are likely universal for a broad class of symmetric helimagnets, opening up a new way of studying weak magnon-magnon interactions with accessible spectroscopic methods. KW - physics KW - spin waves KW - helimagnets KW - inelastic neutron scattering Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-172770 VL - 7 IS - 4 ER - TY - JOUR A1 - Ünzelmann, M. A1 - Bentmann, H. A1 - Figgemeier, T. A1 - Eck, P. A1 - Neu, J. N. A1 - Geldiyev, B. A1 - Diekmann, F. A1 - Rohlf, S. A1 - Buck, J. A1 - Hoesch, M. A1 - Kalläne, M. A1 - Rossnagel, K. A1 - Thomale, R. A1 - Siegrist, T. A1 - Sangiovanni, G. A1 - Di Sante, D. A1 - Reinert, F. T1 - Momentum-space signatures of Berry flux monopoles in the Weyl semimetal TaAs JF - Nature Communications N2 - Since the early days of Dirac flux quantization, magnetic monopoles have been sought after as a potential corollary of quantized electric charge. As opposed to magnetic monopoles embedded into the theory of electromagnetism, Weyl semimetals (WSM) exhibit Berry flux monopoles in reciprocal parameter space. As a function of crystal momentum, such monopoles locate at the crossing point of spin-polarized bands forming the Weyl cone. Here, we report momentum-resolved spectroscopic signatures of Berry flux monopoles in TaAs as a paradigmatic WSM. We carried out angle-resolved photoelectron spectroscopy at bulk-sensitive soft X-ray energies (SX-ARPES) combined with photoelectron spin detection and circular dichroism. The experiments reveal large spin- and orbital-angular-momentum (SAM and OAM) polarizations of the Weyl-fermion states, resulting from the broken crystalline inversion symmetry in TaAs. Supported by first-principles calculations, our measurements image signatures of a topologically non-trivial winding of the OAM at the Weyl nodes and unveil a chirality-dependent SAM of the Weyl bands. Our results provide directly bulk-sensitive spectroscopic support for the non-trivial band topology in the WSM TaAs, promising to have profound implications for the study of quantum-geometric effects in solids. Weyl semimetals exhibit Berry flux monopoles in momentum-space, but direct experimental evidence has remained elusive. Here, the authors reveal topologically non-trivial winding of the orbital-angular-momentum at the Weyl nodes and a chirality-dependent spin-angular-momentum of the Weyl bands, as a direct signature of the Berry flux monopoles in TaAs. KW - electronic properties and materials KW - topological insulators Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-260719 VL - 12 IS - 1 ER -