Your search keyword '"Sutter D"' showing total 599 results

1. Orbital-selective metal skin induced by alkali-metal-dosing Mott-insulating Ca$_2$RuO$_4$

Author

Horio, M., Forte, F., Sutter, D., Kim, M., Fatuzzo, C. G., Matt, C. E., Moser, S., Wada, T., Granata, V., Fittipaldi, R., Sassa, Y., Gatti, G., Rønnow, H. M., Hoesch, M., Kim, T. K., Jozwiak, C., Bostwick, A., Rotenberg, Eli, Matsuda, I., Georges, A., Sangiovanni, G., Vecchione, A., Cuoco, M., and Chang, J.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Doped Mott insulators are the starting point for interesting physics such as high temperature superconductivity and quantum spin liquids. For multi-band Mott insulators, orbital selective ground states have been envisioned. However, orbital selective metals and Mott insulators have been difficult to realize experimentally. Here we demonstrate by photoemission spectroscopy how Ca$_2$RuO$_4$, upon alkali-metal surface doping, develops a single-band metal skin. Our dynamical mean field theory calculations reveal that homogeneous electron doping of Ca$_2$RuO$_4$ results in a multi-band metal. All together, our results provide compelling evidence for an orbital-selective Mott insulator breakdown, which is unachievable via simple electron doping. Supported by a cluster model and cluster perturbation theory calculations, we demonstrate a novel type of skin metal-insulator transition induced by surface dopants that orbital-selectively hybridize with the bulk Mott state and in turn produce coherent in-gap states., Comment: A revised version of this manuscript will appear in Communications Physics

Published

2023

2. Pseudogap Suppression by Competition with Superconductivity in La-Based Cuprates

Author

Küspert, J., Wagner, R. Cohn, Lin, C., von Arx, K., Wang, Q., Kramer, K., Pudelko, W. R., Plumb, N. C., Matt, C. E., Fatuzzo, C. G., Sutter, D., Sassa, Y., Yan, J. -Q., Zhou, J. -S., Goodenough, J. B., Pyon, S., Takayama, T., Takagi, H., Kurosawa, T., Momono, N., Oda, M., Hoesch, M., Cacho, C., Kim, T. K., Horio, M., and Chang, J.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We have carried out a comprehensive high-resolution angle-resolved photoemission spectroscopy (ARPES) study of the pseudogap interplay with superconductivity in La-based cuprates. The three systems La$_{2-x}$Sr$_x$CuO$_4$, La$_{1.6-x}$Nd$_{0.4}$Sr$_x$CuO$_4$, and La$_{1.8-x}$Eu$_{0.2}$Sr$_x$CuO$_4$ display slightly different pseudogap critical points in the temperature versus doping phase diagram. We have studied the pseudogap evolution into the superconducting state for doping concentrations just below the critical point. In this setting, near optimal doping for superconductivity and in the presence of the weakest possible pseudogap, we uncover how the pseudogap is partially suppressed inside the superconducting state. This conclusion is based on the direct observation of a reduced pseudogap energy scale and re-emergence of spectral weight suppressed by the pseudogap. Altogether these observations suggest that the pseudogap phenomenon in La-based cuprates is in competition with superconductivity for anti-nodal spectral weight.

Published

2022

3. Optimization of Flat to Round Transformers with Self-fields using Adjoint Techniques

Author

Dovlatyan, L., Beaudoin, B. L., Bernal, S., Haber, I., Sutter, D., and Antonsen Jr, T. M.

Subjects

Physics - Accelerator Physics

Abstract

A continuous system of moment equations is introduced that models the transverse dynamics of a beam of charged particles as it passes through an arbitrary lattice of quadrupoles and solenoids in the presence of self-fields. Then, figures of merit are introduced specifying system characteristics to be optimized. The resulting model is used to optimize the parameters of the lattice elements of a flat to round transformer with self-fields, as could be applied in electron cooling. Results are shown for a case of no self-fields and two cases with self-fields. The optimization is based on a gradient descent algorithm in which the gradient is calculated using adjoint methods that prove to be very computationally efficient. Two figures of merit are studied and compared: one emphasizing radial force balance in the solenoid, the other emphasizing minimization of transverse beam energy in the solenoid., Comment: 18 pages, 8 figures, to be submitted to Physical Review Accelerators and Beams

Published

2021

4. Oxide Fermi liquid universality revealed by electron spectroscopy

Author

Horio, M., Kramer, K. P., Wang, Q., Zaidan, A., von Arx, K., Sutter, D., Matt, C. E., Sassa, Y., Plumb, N. C., Shi, M., Hanff, A., Mahatha, S. K., Bentmann, H., Reinert, F., Rohlf, S., Diekmann, F. K., Buck, J., Kalläne, M., Rossnagel, K., Rienks, E., Granata, V., Fittipaldi, R., Vecchione, A., Ohgi, T., Kawamata, T., Adachi, T., Koike, Y., Fujimori, A., Hoesch, M., and Chang, J.

Subjects

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

Abstract

We present a combined soft x-ray and high-resolution vacuum-ultraviolet angle-resolved photoemission spectroscopy study of the electron-overdoped cuprate Pr$_{1.3-x}$La$_{0.7}$Ce$_{x}$CuO$_4$ (PLCCO). Demonstration of its highly two-dimensional band structure enabled precise determination of the in-plane self-energy dominated by electron-electron scattering. Through analysis of this self-energy and the Fermi-liquid cut-off energy scale, we find -- in contrast to hole-doped cuprates -- a momentum isotropic and comparatively weak electron correlation in PLCCO. Yet, the self-energies extracted from multiple oxide systems combine to demonstrate a logarithmic divergent relation between the quasiparticle scattering rate and mass. This constitutes a spectroscopic version of the Kadowaki-Woods relation with an important merit -- the demonstration of Fermi liquid quasiparticle lifetime and mass being set by a single energy scale.

Published

2020

5. Electronic reconstruction forming a $C_2$-symmetric Dirac semimetal in Ca$_3$Ru$_2$O$_7$

Author

Horio, M., Wang, Q., Granata, V., Kramer, K. P., Sassa, Y., Jöhr, S., Sutter, D., Bold, A., Das, L., Xu, Y., Frison, R., Fittipaldi, R., Kim, T. K., Cacho, C., Rault, J. E., Fèvre, P. Le, Bertran, F., Plumb, N. C., Shi, M., Vecchione, A., Fischer, M. H., and Chang, J.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Electronic band structures in solids stem from a periodic potential reflecting the structure of either the crystal lattice or an electronic order. In the stoichiometric ruthenate Ca$_3$Ru$_2$O$_7$, numerous Fermi surface sensitive probes indicate a low-temperature electronic reconstruction. Yet, the causality and the reconstructed band structure remain unsolved. Here, we show by angle-resolved photoemission spectroscopy, how in Ca$_3$Ru$_2$O$_7$ a $C_2$-symmetric massive Dirac semimetal is realized through a Brillouin-zone preserving electronic reconstruction. This Dirac semimetal emerges in a two-stage transition upon cooling. The Dirac point and band velocities are consistent with constraints set by quantum oscillation, thermodynamic, and transport experiments, suggesting that the complete Fermi surface is resolved. The reconstructed structure -- incompatible with translational-symmetry-breaking density waves -- serves as an important test for band structure calculations of correlated electron systems.

Published

2019

6. Decoupling of Lattice and Orbital Degrees of Freedom in an Iron-Pnictide Superconductor

Author

Matt, Christian E., Ivashko, O., Horio, M., Sutter, D., Dennler, N., Choi, J., Wang, Q., Fischer, M. H., Katrych, S., Forro, L., Ma, J., Fu, B., Lv, B., Zimmermann, M. v., Kim, T. K., Plumb, N. C., Xu, N., Shi, M., and Chang, J.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

The interplay of structural and electronic phases in iron-based superconductors is a central theme in the search for the superconducting pairing mechanism. While electronic nematicity, defined as the breaking of four-fold symmetry triggered by electronic degrees of freedom, is competing with superconductivity, the effect of purely structural orthorhombic order is unexplored. Here, using x-ray diffraction (XRD), we reveal a new structural orthorhombic phase with an exceptionally high onset temperature ($T_\mathrm{ort} \sim 250$ K), which coexists with superconductivity ($T_\mathrm{c} = 25$ K), in an electron-doped iron-pnictide superconductor far from the underdoped region. Furthermore, our angle-resolved photoemission spectroscopy (ARPES) measurements demonstrate the absence of electronic nematic order as the driving mechanism, in contrast to other underdoped iron pnictides where nematicity is commonly found. Our results establish a new, high temperature phase in the phase diagram of iron-pnictide superconductors and impose strong constraints for the modeling of their superconducting pairing mechanism., Comment: SI available upon request

Published

2019

7. Band Structure of Overdoped Cuprate Superconductors: Density Functional Theory Matching Experiments

Author

Kramer, K. P., Horio, M., Tsirkin, S. S., Sassa, Y., Hauser, K., Matt, C. E., Sutter, D., Chikina, A., Schröter, N., Krieger, J. A., Schmitt, T., Strocov, V. N., Plumb, N., Shi, M., Pyon, S., Takayama, T., Takagi, H., Adachi, T., Ohgi, T., Kawamata, T., Koike, Y., Kondo, T., Lipscombe, O. J., Hayden, S. M., Ishikado, M., Eisaki, H., Neupert, T., and Chang, J.

Subjects

Condensed Matter - Superconductivity

Abstract

A comprehensive angle resolved photoemission spectroscopy study of the band structure in single layer cuprates is presented with the aim of uncovering universal trends across different materials. Five different hole- and electron-doped cuprate superconductors (La$_{1.59}$Eu$_{0.2}$Sr$_{0.21}$CuO$_4$, La$_{1.77}$Sr$_{0.23}$CuO$_4$, Bi$_{1.74}$Pb$_{0.38}$Sr$_{1.88}$CuO$_{6+\delta}$, Tl$_{2}$Ba$_{2}$CuO$_{6+\delta}$, and Pr$_{1.15}$La$_{0.7}$Ce$_{0.15}$CuO$_{4}$) have been studied with special focus on the bands with predominately $d$-orbital character. Using light polarization analysis, the $e_g$ and $t_{2g}$ bands are identified across these materials. A clear correlation between the $d_{3z^2-r^2}$ band energy and the apical oxygen distance $d_\mathrm{A}$ is demonstrated. Moreover, the compound dependence of the $d_{x^2-y^2}$ band bottom and the $t_{2g}$ band top is revealed. Direct comparison to density functional theory (DFT) calculations employing hybrid exchange-correlation functionals demonstrates excellent agreement. We thus conclude that the DFT methodology can be used to describe the global band structure of overdoped single layer cuprates on both the hole and electron doped side.

Published

2019

8. Low Space-Charge Intensity Beams in UMER via Collimation and Solenoid Focusing

Author

Bernal, S., Beaudoin, B., Dovlatyan, L., Ehrenstein, S., Haber, I., Kishek, R. A., Montgomery, E., and Sutter, D.

Subjects

Physics - Accelerator Physics

Abstract

The University of Maryland Electron Ring (UMER) has operated traditionally in the regime of strong space-charge dominated beam transport, but small-current beams are desirable to significantly reduce the direct (incoherent) space-charge tune shift as well as the tune depression. This regime is of interest to model space-charge effects in large proton and ion rings similar to those used in nuclear physics and spallation neutron sources, and also for nonlinear dynamics studies of lattices inspired on the Integrable Optics Test Accelerator (IOTA). We review the definition of space-charge intensity, show a comparison of space-charge parameters in UMER and other machines, and discuss a simple method involving double collimation and solenoid focusing for varying the space-charge intensity of the beam injected into UMER., Comment: 6 pages, 4 figures, preprint

Published

2018

9. Three-Dimensional Fermi Surface of Overdoped La-Based Cuprates

Author

Horio, M., Hauser, K., Sassa, Y., Mingazheva, Z., Sutter, D., Kramer, K., Cook, A., Nocerino, E., Forslund, O. K., Tjernberg, O., Kobayashi, M., Chikina, A., Schröter, N. B. M., Krieger, J. A., Schmitt, T., Strocov, V. N., Pyon, S., Takayama, T., Takagi, H., Lipscombe, O. J., Hayden, S. M., Ishikado, M., Eisaki, H., Neupert, T., Månsson, M., Matt, C. E., and Chang, J.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We present a soft x-ray angle-resolved photoemission spectroscopy study of the overdoped high-temperature superconductors La$_{2-x}$Sr$_x$CuO$_4$ and La$_{1.8-x}$Eu$_{0.2}$Sr$_x$CuO$_4$. In-plane and out-of-plane components of the Fermi surface are mapped by varying the photoemission angle and the incident photon energy. No $k_z$ dispersion is observed along the nodal direction, whereas a significant antinodal $k_z$ dispersion is identified. Based on a tight-binding parametrization, we discuss the implications for the density of states near the van-Hove singularity. Our results suggest that the large electronic specific heat found in overdoped La$_{2-x}$Sr$_x$CuO$_4$ can not be assigned to the van-Hove singularity alone. We therefore propose quantum criticality induced by a collapsing pseudogap phase as a plausible explanation for observed enhancement of electronic specific heat.

Published

2018

10. Two-dimensional type-II Dirac fermions in layered oxides

Author

Horio, M., Matt, C. E., Kramer, K., Sutter, D., Cook, A. M., Sassa, Y., Hauser, K., Månsson, M., Plumb, N. C., Shi, M., Lipscombe, O. J., Hayden, S. M., Neupert, T., and Chang, J.

Subjects

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

Abstract

Relativistic massless Dirac fermions can be probed with high-energy physics experiments, but appear also as low-energy quasi-particle excitations in electronic band structures. In condensed matter systems, their massless nature can be protected by crystal symmetries. Classification of such symmetry-protected relativistic band degeneracies has been fruitful, although many of the predicted quasi-particles still await their experimental discovery. Here we reveal, using angle-resolved photoemission spectroscopy, the existence of two-dimensional type-II Dirac fermions in the high-temperature superconductor La$_{1.77}$Sr$_{0.23}$CuO$_4$. The Dirac point, constituting the crossing of $d_{x^2-y^2}$ and $d_{z^2}$ bands, is found approximately one electronvolt below the Fermi level ($E_\mathrm{F}$) and is protected by mirror symmetry. If spin-orbit coupling is considered, the Dirac point degeneracy is lifted and the bands acquire a topologically non-trivial character. In certain nickelate systems, band structure calculations suggest that the same type-II Dirac fermions can be realised near $E_\mathrm{F}$.

Published

2018

11. Direct Observation of Orbital Hybridisation in a Cuprate Superconductor

Author

Matt, Christian E., Sutter, D., Cook, A. M., Sassa, Y., Mansson, M., Tjernberg, O., Das, L., Horio, M., Destraz, D., Fatuzzo, C. G., Hauser, K., Shi, M., Kobayashi, M., Strocov, V., Dudin, P., Hoesch, M., Pyon, S., Takayama, T., Takagi, H., Lipscombe, O. J., Hayden, S. M., Kurosawa, T., Momono, N., Oda, M., Neupert, T., and Chang, Johan

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

The minimal ingredients to explain the essential physics of layered copper-oxide (cuprates= materials remains heavily debated. Effective low energy single-band models of the copper-oxygen orbitals are widely used because there exists no strong experimental evidence supporting multiband structures. Here we report angle-resolved photoelectron spectroscopy experiments on La-based cuprates that provide direct observation of a two-band structure. This electronic structure, qualitatively consistent with density functional theory, is parametrised by a two-orbital ($d_{x^2-y^2}$ and $d_{z^2}$) tight-binding model. We quantify the orbital hybridisation which provides an explanation for the Fermi surface topology and the proximity of the van-Hove singularity to the Fermi level. Our analysis leads to a unification of electronic hopping parameters for single-layer cuprates and we conclude that hybridisation, restraining d-wave pairing, is an important optimisation element for superconductivity., Comment: supplementary material available on request

Published

2017

12. Hallmarks of Hund's coupling in the Mott insulator Ca$_2$RuO$_4$

Author

Sutter, D., Fatuzzo, C. G., Moser, S., Kim, M., Fittipaldi, R., Vecchione, A., Granata, V., Sassa, Y., Cossalter, F., Gatti, G., Grioni, M., Ronnow, H. M., Plumb, N. C., Matt, C. E., Shi, M., Hoesch, M., Kim, T. K., Chang, T. R., Jeng, H. T., Jozwiak, C., Bostwick, A., Rotenberg, E., Georges, A., Neupert, T., and Chang, J.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

A paradigmatic case of multi-band Mott physics including spin-orbit and Hund's coupling is realised in Ca$_2$RuO$_4$. Progress in understanding the nature of this Mott insulating phase has been impeded by the lack of knowledge about the low-energy electronic structure. Here we provide -- using angle-resolved photoemission electron spectroscopy -- the band structure of the paramagnetic insulating phase of Ca$_2$RuO$_4$ and show how it features several distinct energy scales. Comparison to a simple analysis of atomic multiplets provides a quantitative estimate of the Hund's coupling $J=0.4$ eV. Furthermore, the experimental spectra are in good agreement with electronic structure calculations performed with Dynamical Mean-Field Theory. The crystal field stabilisation of the d$_{xy}$ orbital due to $c$-axis contraction is shown to be important in explaining the nature of the insulating state. It is thus a combination of multiband physics, Coulomb interaction and Hund's coupling that generates the Mott insulating state of Ca$_2$RuO$_4$. These results underscore the importance of Hund's coupling in the ruthenates and related multiband materials.

Published

2016

13. Hallmarks of Hunds coupling in the Mott insulator Ca2RuO4.

Author

Sutter, D, Fatuzzo, CG, Moser, S, Kim, M, Fittipaldi, R, Vecchione, A, Granata, V, Sassa, Y, Cossalter, F, Gatti, G, Grioni, M, Rønnow, HM, Plumb, NC, Matt, CE, Shi, M, Hoesch, M, Kim, TK, Chang, T-R, Jeng, H-T, Jozwiak, C, Bostwick, A, Rotenberg, E, Georges, A, Neupert, T, and Chang, J

Abstract

A paradigmatic case of multi-band Mott physics including spin-orbit and Hund's coupling is realized in Ca2RuO4. Progress in understanding the nature of this Mott insulating phase has been impeded by the lack of knowledge about the low-energy electronic structure. Here we provide-using angle-resolved photoemission electron spectroscopy-the band structure of the paramagnetic insulating phase of Ca2RuO4 and show how it features several distinct energy scales. Comparison to a simple analysis of atomic multiplets provides a quantitative estimate of the Hund's coupling J=0.4 eV. Furthermore, the experimental spectra are in good agreement with electronic structure calculations performed with Dynamical Mean-Field Theory. The crystal field stabilization of the dxy orbital due to c-axis contraction is shown to be essential to explain the insulating phase. These results underscore the importance of multi-band physics, Coulomb interaction and Hund's coupling that together generate the Mott insulating state of Ca2RuO4.

Published

2017

14. Electronic reconstruction forming a C2-symmetric Dirac semimetal in Ca3Ru2O7

Author

Horio, M., Wang, Q., Granata, V., Kramer, K. P., Sassa, Y., Jöhr, S., Sutter, D., Bold, A., Das, L., Xu, Y., Frison, R., Fittipaldi, R., Kim, T. K., Cacho, C., Rault, J. E., Fèvre, P. Le, Bertran, F., Plumb, N. C., Shi, M., Vecchione, A., Fischer, M. H., and Chang, J.

Published

2021

15. Frontiers in Ultrashort Pulse Generation: Pushing the Limits in Linear and Nonlinear Optics

Author

Steinmeyer, G., Sutter, D. H., Gallmann, L., Matuschek, N., and Keller, U.

Published

1999

16. Pseudogap suppression by competition with superconductivity in La-based cuprates

Author

Küspert, J., primary, Cohn Wagner, R., additional, Lin, C., additional, von Arx, K., additional, Wang, Q., additional, Kramer, K., additional, Pudelko, W. R., additional, Plumb, N. C., additional, Matt, C. E., additional, Fatuzzo, C. G., additional, Sutter, D., additional, Sassa, Y., additional, Yan, J.-Q., additional, Zhou, J.-S., additional, Goodenough, J. B., additional, Pyon, S., additional, Takayama, T., additional, Takagi, H., additional, Kurosawa, T., additional, Momono, N., additional, Oda, M., additional, Hoesch, M., additional, Cacho, C., additional, Kim, T. K., additional, Horio, M., additional, and Chang, J., additional

Published

2022

17. Pseudogap suppression by competition with superconductivity in La-based cuprates

Author

Küspert, J, Cohn Wagner, R, Lin, C, von Arx, K, Wang, Q, Kramer, K, Pudelko, W R, Plumb, N C, Matt, C E, Fatuzzo, C G, Sutter, D, Sassa, Y, Yan, J-Q, Zhou, J-S, Goodenough, J B, Pyon, S, Takayama, T, Takagi, H, Kurosawa, T, Momono, N, Oda, M, Hoesch, M, Cacho, C, Kim, T K, Horio, M, Chang, J, Küspert, J, Cohn Wagner, R, Lin, C, von Arx, K, Wang, Q, Kramer, K, Pudelko, W R, Plumb, N C, Matt, C E, Fatuzzo, C G, Sutter, D, Sassa, Y, Yan, J-Q, Zhou, J-S, Goodenough, J B, Pyon, S, Takayama, T, Takagi, H, Kurosawa, T, Momono, N, Oda, M, Hoesch, M, Cacho, C, Kim, T K, Horio, M, and Chang, J

Abstract

We carried out a comprehensive high-resolution angle-resolved photoemission spectroscopy (ARPES) study of the pseudogap interplay with superconductivity in La-based cuprates. The three systems La2−xSrxCuO4, La1.6−xNd0.4SrxCuO4, and La1.8−xEu0.2SrxCuO4 display slightly different pseudogap critical points in the temperature versus doping phase diagram. We studied the pseudogap evolution into the superconducting state for doping concentrations just below the critical point. In this setting, near optimal doping for superconductivity and in the presence of the weakest possible pseudogap, we uncover how the pseudogap is partially suppressed inside the superconducting state. This conclusion is based on the direct observation of a reduced pseudogap energy scale and re-emergence of spectral weight suppressed by the pseudogap. Altogether these observations suggest that the pseudogap phenomenon in La-based cuprates is in competition with superconductivity for antinodal spectral weight.

Published

2022

18. Optimization of flat to round transformers with self-fields using adjoint techniques

Author

Dovlatyan, L., primary, Beaudoin, B. L., additional, Bernal, S., additional, Haber, I., additional, Sutter, D., additional, and Antonsen, T. M., additional

Published

2022

19. Female flowers and systematic position of Picrodendraceae (Euphorbiaceae s.l., Malpighiales)

Author

Sutter, D. Merino, Forster, P. I., and Endress, P. K.

Published

2006

20. Carrier Envelope Offset Phase Stabilization for Few-Cycle Nonlinear Optics

Author

Steinmeyer, G., Sutter, D. H., Keller, U., Stenger, J., Telle, H. R., Schäfer, F. P., editor, Toennies, J. P., editor, Zinth, W., editor, Elsaesser, T., Mukamel, S., Murnane, M. M., and Scherer, N. F.

Published

2001

21. Smooth dispersion compensation: novel chirped mirrors with suppressed dispersion oscillations

Author

Gallmann, L., Matuschek, N., Sutter, D. H., Scheuer, V., Angelow, G., Tschudi, T., Steinmeyer, G., Keller, U., Schäfer, F. P., editor, Toennies, J. P., editor, Zinth, W., editor, Elsaesser, T., Mukamel, S., Murnane, M. M., and Scherer, N. F.

Published

2001

22. New source technologies and their impact on future light sources

Author

Carlsten, B.E., Colby, E.R., Esarey, E.H., Hogan, M., Kärtner, F.X., Graves, W.S., Leemans, W.P., Rao, T., Rosenzweig, J.B., Schroeder, C.B., Sutter, D., and White, W.E.

Published

2010

23. Broadband Operation of a Ti:Sapphire Laser Using Novel Double-Chirped Mirrors and Semiconductor Saturable Absorbers

Author

Sutter, D. H., Jung, I. D., Matuschek, N., Morier-Genoud, F., Kärtner, F. X., Scheuer, V., Tilsch, M., Tschudi, T., Keller, U., Schäfer, F. P., editor, Toennies, J. P., editor, Zinth, Wolfgang, editor, Elsaesser, Thomas, Fujimoto, James G., and Wiersma, Douwe A.

Published

1998

24. Improved Broadband Double-Chirped Mirrors with Controlled Dispersion Characteristics

Author

Matuschek, N., Kärtner, F. X., Sutter, D. H., Scheuer, V., Tilsch, M., Tschudi, T., Keller, U., Schäfer, F. P., editor, Toennies, J. P., editor, Zinth, Wolfgang, editor, Elsaesser, Thomas, Fujimoto, James G., and Wiersma, Douwe A.

Published

1998

25. Scaled electron studies at the University of Maryland

Author

Haber, I., Bernal, S., Beaudoin, B., Cornacchia, M., Feldman, D., Feldman, R.B., Fiorito, R., Fiuza, K., Godlove, T.F., Kishek, R.A., O’Shea, P.G., Quinn, B., Papadopoulos, C., Reiser, M., Stratakis, D., Sutter, D., Thangaraj, J.C.T., Tian, K., Walter, M., and Wu, C.

Published

2009

26. Decoupling of lattice and orbital degrees of freedom in an iron-pnictide superconductor

Author

Matt, C. E., primary, Ivashko, O., additional, Horio, M., additional, Choi, J., additional, Wang, Q., additional, Sutter, D., additional, Dennler, N., additional, Fischer, M. H., additional, Katrych, S., additional, Forro, L., additional, Ma, J., additional, Fu, B., additional, Lv, B. Q., additional, Zimmermann, M. v., additional, Kim, T. K., additional, Plumb, N. C., additional, Xu, N., additional, Shi, M., additional, and Chang, J., additional

Published

2021

27. Decoupling of lattice and orbital degrees of freedom in an iron-pnictide superconductor

Author

Matt, C E; https://orcid.org/0000-0003-1807-9805, Ivashko, O; https://orcid.org/0000-0002-4869-8175, Horio, M; https://orcid.org/0000-0003-2669-5368, Choi, Jennifer; https://orcid.org/0000-0003-0015-8601, Wang, Q; https://orcid.org/0000-0002-8741-7559, Sutter, D; https://orcid.org/0000-0003-0139-8076, Dennler, N; https://orcid.org/0000-0002-0380-2450, Fischer, M H; https://orcid.org/0000-0003-0810-6064, Katrych, S; https://orcid.org/0000-0002-2560-7840, Forro, L, Ma, J, Fu, B, Lv, B Q, von Zimmermann, Martin; https://orcid.org/0000-0002-9320-6846, Kim, T K; https://orcid.org/0000-0003-4201-4462, Plumb, N C; https://orcid.org/0000-0002-2334-8494, Xu, N, Shi, M, Chang, J; https://orcid.org/0000-0002-4655-1516, Matt, C E; https://orcid.org/0000-0003-1807-9805, Ivashko, O; https://orcid.org/0000-0002-4869-8175, Horio, M; https://orcid.org/0000-0003-2669-5368, Choi, Jennifer; https://orcid.org/0000-0003-0015-8601, Wang, Q; https://orcid.org/0000-0002-8741-7559, Sutter, D; https://orcid.org/0000-0003-0139-8076, Dennler, N; https://orcid.org/0000-0002-0380-2450, Fischer, M H; https://orcid.org/0000-0003-0810-6064, Katrych, S; https://orcid.org/0000-0002-2560-7840, Forro, L, Ma, J, Fu, B, Lv, B Q, von Zimmermann, Martin; https://orcid.org/0000-0002-9320-6846, Kim, T K; https://orcid.org/0000-0003-4201-4462, Plumb, N C; https://orcid.org/0000-0002-2334-8494, Xu, N, Shi, M, and Chang, J; https://orcid.org/0000-0002-4655-1516

Abstract

The interplay between structural and electronic phases in iron-based superconductors is a central theme in the search for the superconducting pairing mechanism. While electronic nematicity is competing with superconductivity, the effect of purely structural orthorhombic order is unexplored. Here, using x-ray diffraction and angle-resolved photoemission spectroscopy, we reveal a structural orthorhombic phase in the electron-doped iron-pnictide superconductor Pr4Fe2As2Te0.88O4 (Tc=25 K), which is distinct from orthorhombicity in the nematic phase in underdoped pnictides. Despite the high electron doping we find an exceptionally high orthorhombic onset temperature (Tort∼250 K), no signatures of phase competition with superconductivity, and absence of electronic nematic order as the driving mechanism for orthorhombicity. Combined, our results establish a high-temperature phase in the phase diagram of iron-pnictide superconductors and impose strong constraints for the modeling of their superconducting pairing mechanism.

Published

2021

28. Electronic reconstruction forming a C2-symmetric Dirac semimetal in Ca3Ru2O7

Author

Horio, M; https://orcid.org/0000-0003-2669-5368, Wang, Q; https://orcid.org/0000-0002-8741-7559, Granata, V; https://orcid.org/0000-0003-2246-6963, Kramer, K P; https://orcid.org/0000-0001-5523-6924, Sassa, Y, Jöhr, S, Sutter, D, Bold, A, Das, L, Xu, Y, Frison, R, Fittipaldi, R, Kim, T K; https://orcid.org/0000-0003-4201-4462, Cacho, C; https://orcid.org/0000-0002-0058-5817, Rault, J E, Le Fèvre, P, Bertran, F; https://orcid.org/0000-0002-2416-0514, Plumb, N C; https://orcid.org/0000-0002-2334-8494, Shi, M, Vecchione, A; https://orcid.org/0000-0001-6848-6084, Fischer, M H; https://orcid.org/0000-0003-0810-6064, Chang, J; https://orcid.org/0000-0002-4655-1516, Horio, M; https://orcid.org/0000-0003-2669-5368, Wang, Q; https://orcid.org/0000-0002-8741-7559, Granata, V; https://orcid.org/0000-0003-2246-6963, Kramer, K P; https://orcid.org/0000-0001-5523-6924, Sassa, Y, Jöhr, S, Sutter, D, Bold, A, Das, L, Xu, Y, Frison, R, Fittipaldi, R, Kim, T K; https://orcid.org/0000-0003-4201-4462, Cacho, C; https://orcid.org/0000-0002-0058-5817, Rault, J E, Le Fèvre, P, Bertran, F; https://orcid.org/0000-0002-2416-0514, Plumb, N C; https://orcid.org/0000-0002-2334-8494, Shi, M, Vecchione, A; https://orcid.org/0000-0001-6848-6084, Fischer, M H; https://orcid.org/0000-0003-0810-6064, and Chang, J; https://orcid.org/0000-0002-4655-1516

Abstract

Electronic band structures in solids stem from a periodic potential reflecting the structure of either the crystal lattice or electronic order. In the stoichiometric ruthenate Ca3Ru2O7, numerous Fermi surface-sensitive probes indicate a low-temperature electronic reconstruction. Yet, the causality and the reconstructed band structure remain unsolved. Here, we show by angle-resolved photoemission spectroscopy, how in Ca3Ru2O7 a C2-symmetric massive Dirac semimetal is realized through a Brillouin-zone preserving electronic reconstruction. This Dirac semimetal emerges in a two-stage transition upon cooling. The Dirac point and band velocities are consistent with constraints set by quantum oscillation, thermodynamic, and transport experiments, suggesting that the complete Fermi surface is resolved. The reconstructed structure—incompatible with translational-symmetry-breaking density waves—serves as an important test for band structure calculations of correlated electron systems.

Published

2021

29. Characterization of InGaAs and InGaAsN semiconductor saturable absorber mirrors for high-power mode-locked thin-disk lasers

Author

Schättiger, F., Bauer, D., Demsar, J., Dekorsy, T., Kleinbauer, J., Sutter, D. H., Puustinen, J., and Guina, M.

Published

2012

30. Oxide Fermi liquid universality revealed by electron spectroscopy

Author

Horio, M, Kramer, K P, Wang, Q, Zaidan, A, von Arx, K, Sutter, D, Matt, C E, Sassa, Y, Plumb, N C, Shi, M, Chang, Johan, et al, and University of Zurich

Subjects

3104 Condensed Matter Physics, 530 Physics, 2504 Electronic, Optical and Magnetic Materials, 10192 Physics Institute

Published

2020

31. Sonographically guided percutaneous A1 pulley release in trigger finger - preliminary results

Author

Sutter, D, Treier, A, Vögelin, E, Sutter, D, Treier, A, and Vögelin, E

Published

2020

32. Oxide Fermi liquid universality revealed by electron spectroscopy

Author

Horio, M; https://orcid.org/0000-0003-2669-5368, Kramer, K P, Wang, Q, Zaidan, A, von Arx, K; https://orcid.org/0000-0002-8367-5454, Sutter, D; https://orcid.org/0000-0003-0139-8076, Matt, C E, Sassa, Y, Plumb, N C, Shi, M, Chang, Johan; https://orcid.org/0000-0002-4655-1516, et al, Horio, M; https://orcid.org/0000-0003-2669-5368, Kramer, K P, Wang, Q, Zaidan, A, von Arx, K; https://orcid.org/0000-0002-8367-5454, Sutter, D; https://orcid.org/0000-0003-0139-8076, Matt, C E, Sassa, Y, Plumb, N C, Shi, M, Chang, Johan; https://orcid.org/0000-0002-4655-1516, and et al

Abstract

We present a combined soft x-ray and high-resolution vacuum-ultraviolet angle-resolved photoemission spectroscopy study of the electron-overdoped cuprate Pr1.3−xLa0.7CexCuO4 (PLCCO). Demonstration of its highly two-dimensional band structure enabled precise determination of the in-plane self-energy dominated by electron-electron scattering. Through analysis of this self-energy and the Fermi liquid cut-off energy scale, we find—in contrast to hole-doped cuprates—a momentum isotropic and comparatively weak electron correlation in PLCCO. Yet, the self-energies extracted from multiple oxide systems combine to demonstrate a logarithmic divergent relation between the quasiparticle scattering rate and mass. This constitutes a spectroscopic version of the Kadowaki-Woods relation with an important merit—the demonstration of Fermi liquid quasiparticle lifetime and mass being set by a single energy scale.

Published

2020

33. Scaled electron experiments at the University of Maryland

Author

Haber, I., Bai, G., Bernal, S., Beaudoin, B., Feldman, D., Fiorito, R.B., Godlove, T.F., Kishek, R.A., O’Shea, P.G., Quinn, B., Papadopoulos, C., Reiser, M., Rodgers, J., Stratakis, D., Sutter, D., Thangaraj, J.C.T., Tian, K., Walter, M., and Wu, C.

Published

2007

34. Oxide Fermi liquid universality revealed by electron spectroscopy

Author

Horio, M., primary, Kramer, K. P., additional, Wang, Q., additional, Zaidan, A., additional, von Arx, K., additional, Sutter, D., additional, Matt, C. E., additional, Sassa, Y., additional, Plumb, N. C., additional, Shi, M., additional, Hanff, A., additional, Mahatha, S. K., additional, Bentmann, H., additional, Reinert, F., additional, Rohlf, S., additional, Diekmann, F. K., additional, Buck, J., additional, Kalläne, M., additional, Rossnagel, K., additional, Rienks, E., additional, Granata, V., additional, Fittipaldi, R., additional, Vecchione, A., additional, Ohgi, T., additional, Kawamata, T., additional, Adachi, T., additional, Koike, Y., additional, Fujimori, A., additional, Hoesch, M., additional, and Chang, J., additional

Published

2020

35. Electron-driven C2-symmetric Dirac semimetal uncovered in Ca3Ru2O7

Author

Horio, M, Jöhr, S, Sutter, D, Das, L, Fischer, Mark, Chang, J, and University of Zurich

Subjects

530 Physics, 10192 Physics Institute

Published

2019

36. Direct observation of orbital hybridisation in a cuprate superconductor

Author

Matt, C E, Sutter, D, Cook, A M, et al, University of Zurich, and Matt, C E

Subjects

530 Physics, 1300 General Biochemistry, Genetics and Molecular Biology, 1600 General Chemistry, 10192 Physics Institute, 3100 General Physics and Astronomy

Published

2018

37. Smooth dispersion compensation: novel chirped mirrors with suppressed dispersion oscillations

Author

Gallmann, L., primary, Matuschek, N., additional, Sutter, D. H., additional, Scheuer, V., additional, Angelow, G., additional, Tschudi, T., additional, Steinmeyer, G., additional, and Keller, U., additional

Published

2001

38. Carrier Envelope Offset Phase Stabilization for Few-Cycle Nonlinear Optics

Author

Steinmeyer, G., primary, Sutter, D. H., additional, Keller, U., additional, Stenger, J., additional, and Telle, H. R., additional

Published

2001

39. Orbitally selective breakdown of Fermi liquid quasiparticles in Ca1.8Sr0.2RuO4

Author

Sutter, D., Kim, M., Matt, C. E., Horio, M., Fittipaldi, R., Vecchione, A., Granata, V, Hauser, K., Sassa, Yasmine, Gatti, G., Grioni, M., Hoesch, M., Kim, T. K., Rienks, E., Plumb, N. C., Shi, M., Neupert, T., Georges, A., Chang, J., Sutter, D., Kim, M., Matt, C. E., Horio, M., Fittipaldi, R., Vecchione, A., Granata, V, Hauser, K., Sassa, Yasmine, Gatti, G., Grioni, M., Hoesch, M., Kim, T. K., Rienks, E., Plumb, N. C., Shi, M., Neupert, T., Georges, A., and Chang, J.

Abstract

We present a comprehensive angle-resolved photoemission spectroscopy study of Ca1.8Sr0.2RuO4. Four distinct bands are revealed and along the Ru-O bond direction their orbital characters are identified through a light polarization analysis and comparison to dynamical mean-field theory calculations. Bands assigned to d(xz),d(yz) orbitals display Fermi liquid behavior with fourfold quasiparticle mass renormalization. Extremely heavy fermions-associated with a predominantly d(xy) band character-are shown to display non-Fermi-liquid behavior. We thus demonstrate that Ca1.8Sr0.2RuO4 is a hybrid metal with an orbitally selective Fermi liquid quasiparticle breakdown.

Published

2019

40. The generation and use of recombinant extracellular vesicles as biological reference material

Author

Geeurickx, E. (Edward), Tulkens, J. (Joeri), Dhondt, B. (Bert), Van Deun, J. (Jan), Lippens, L. (Lien), Vergauwen, G. (Glenn), Heyrman, E. (Elisa), De Sutter, D. (Delphine), Gevaert, K. (Kris), Impens, F. (Francis), Miinalainen, I. (Ilkka), Van Bockstal, P.-J. (Pieter-Jan), De Beer, T. (Thomas), Wauben, M. H. (Marca H. M.), Nolte-‘t-Hoen, E. N. (Esther N. M.), Bloch, K. (Katarzyna), Swinnen, J. V. (Johannes V.), van der Pol, E. (Edwin), Nieuwland, R. (Rienk), Braems, G. (Geert), Callewaert, N. (Nico), Mestdagh, P. (Pieter), Vandesompele, J. (Jo), Denys, H. (Hannelore), Eyckerman, S. (Sven), De Wever, O. (Olivier), Hendrix, A. (An), Geeurickx, E. (Edward), Tulkens, J. (Joeri), Dhondt, B. (Bert), Van Deun, J. (Jan), Lippens, L. (Lien), Vergauwen, G. (Glenn), Heyrman, E. (Elisa), De Sutter, D. (Delphine), Gevaert, K. (Kris), Impens, F. (Francis), Miinalainen, I. (Ilkka), Van Bockstal, P.-J. (Pieter-Jan), De Beer, T. (Thomas), Wauben, M. H. (Marca H. M.), Nolte-‘t-Hoen, E. N. (Esther N. M.), Bloch, K. (Katarzyna), Swinnen, J. V. (Johannes V.), van der Pol, E. (Edwin), Nieuwland, R. (Rienk), Braems, G. (Geert), Callewaert, N. (Nico), Mestdagh, P. (Pieter), Vandesompele, J. (Jo), Denys, H. (Hannelore), Eyckerman, S. (Sven), De Wever, O. (Olivier), and Hendrix, A. (An)

Abstract

Recent years have seen an increase of extracellular vesicle (EV) research geared towards biological understanding, diagnostics and therapy. However, EV data interpretation remains challenging owing to complexity of biofluids and technical variation introduced during sample preparation and analysis. To understand and mitigate these limitations, we generated trackable recombinant EV (rEV) as a biological reference material. Employing complementary characterization methods, we demonstrate that rEV are stable and bear physical and biochemical traits characteristic of sample EV. Furthermore, rEV can be quantified using fluorescence-, RNA- and protein-based technologies available in routine laboratories. Spiking rEV in biofluids allows recovery efficiencies of commonly implemented EV separation methods to be identified, intra-method and inter-user variability induced by sample handling to be defined, and to normalize and improve sensitivity of EV enumerations. We anticipate that rEV will aid EV-based sample preparation and analysis, data normalization, method development and instrument calibration in various research and biomedical applications.

Published

2019

41. Electron-driven C2-symmetric Dirac semimetal uncovered in Ca3Ru2O7

Author

Horio, M; https://orcid.org/0000-0003-2669-5368, Jöhr, S, Sutter, D; https://orcid.org/0000-0003-0139-8076, Das, L, Fischer, Mark; https://orcid.org/0000-0003-0810-6064, Chang, J; https://orcid.org/0000-0002-4655-1516, Horio, M; https://orcid.org/0000-0003-2669-5368, Jöhr, S, Sutter, D; https://orcid.org/0000-0003-0139-8076, Das, L, Fischer, Mark; https://orcid.org/0000-0003-0810-6064, and Chang, J; https://orcid.org/0000-0002-4655-1516

Abstract

Two-dimensional semimetals have been the center of intensified investigations since the realization of graphene. In particular, the design of Dirac and Weyl semimetals has been scrutinized. Typically, Dirac metals emerge from crystal-field environments captured by density functional theory (DFT). Here, we show by angle-resolved photoemission spectroscopy (ARPES) how a rotational symmetry broken massive Dirac semimetal is realized in Ca3Ru2O7. This Dirac semimetal emerges in a two-stage electronic transition driven by electron correlations beyond the DFT paradigm. The Dirac point and band velocity is consistent with constraints set by quantum oscillation, thermodynamic and transport experiments. Our results hence advance the understanding of the peculiar fermiology found in Ca3Ru2O7. As the two-stage Fermi surface transition preserves the Brillouin zone, translational broken symmetries are excluded. The mechanism and symmetry breaking elements underlying the electronic reconstruction thus remain to be identified. This situation resembles URu2Si2 that also undergoes an electronic transition without an identifiable symmetry breaking. As such our study positions Ca3Ru2O7 as another prominent hidden order parameter problem.

Published

2019

42. Band structure of overdoped cuprate superconductors: Density functional theory matching experiments

Author

Kramer, K P, Horio, M, Tsirkin, S S, Sassa, Y, Hauser, K, Matt, C E, Sutter, D, Chikina, A, Schröter, N B M, Krieger, J A, Schmitt, T, Strocov, V N, Plumb, N C, Shi, M, Pyon, S, Takayama, T, Takagi, H, Adachi, T, Ohgi, T, Kawamata, T, Koike, Y, Kondo, T, Lipscombe, O J, Hayden, S M, Ishikado, M, Eisaki, H, Neupert, T; https://orcid.org/0000-0003-0604-041X, Chang, J; https://orcid.org/0000-0002-4655-1516, Kramer, K P, Horio, M, Tsirkin, S S, Sassa, Y, Hauser, K, Matt, C E, Sutter, D, Chikina, A, Schröter, N B M, Krieger, J A, Schmitt, T, Strocov, V N, Plumb, N C, Shi, M, Pyon, S, Takayama, T, Takagi, H, Adachi, T, Ohgi, T, Kawamata, T, Koike, Y, Kondo, T, Lipscombe, O J, Hayden, S M, Ishikado, M, Eisaki, H, Neupert, T; https://orcid.org/0000-0003-0604-041X, and Chang, J; https://orcid.org/0000-0002-4655-1516

Abstract

A comprehensive angle-resolved photoemission spectroscopy study of the band structure in single-layer cuprates is presented with the aim of uncovering universal trends across different materials. Five different hole- and electron-overdoped cuprate superconductors (${\mathrm{La}}_{1.59}{\mathrm{Eu}}_{0.2}{\mathrm{Sr}}_{0.21}{\mathrm{CuO}}_{4}$, ${\mathrm{La}}_{1.77}{\mathrm{Sr}}_{0.23}{\mathrm{CuO}}_{4}$, ${\mathrm{Bi}}_{1.74}{\mathrm{Pb}}_{0.38}{\mathrm{Sr}}_{1.88}{\mathrm{CuO}}_{6+{\delta}}$, ${\mathrm{Tl}}_{2}{\mathrm{Ba}}_{2}{\mathrm{CuO}}_{6+{\delta}}$, and ${\mathrm{Pr}}_{1.15}{\mathrm{La}}_{0.7}{\mathrm{Ce}}_{0.15}{\mathrm{CuO}}_{4}$) have been studied with special focus on the bands with a predominately $d$-orbital character. Using a light polarization analysis, the ${e}_{g}$ and ${t}_{2g}$ bands are identified across these materials. A clear correlation between the ${d}_{3{z}^{2}{-}{r}^{2}}$ band energy and the apical oxygen distance ${d}_{\mathrm{A}}$ is demonstrated. Moreover, the compound dependence of the ${d}_{{x}^{2}{-}{y}^{2}}$ band bottom and the ${t}_{2g}$ band top is revealed. A direct comparison to density functional theory (DFT) calculations employing hybrid exchange-correlation functionals demonstrates excellent agreement. We thus conclude that the DFT methodology can be used to describe the global band structure of overdoped single-layer cuprates on both the hole- and electron-doped side." name="description" />

Published

2019

43. Orbitally selective breakdown of Fermi liquid quasiparticles in Ca1.8Sr0.2RuO4

Author

Sutter, D, Kim, M, Matt, C E, Horio, M, Fittipaldi, R, Vecchione, A, Granata, V, Hauser, K, Sassa, Y, Gatti, G, Grioni, M, Hoesch, M, Kim, T K, Rienks, E, Plumb, N C, Shi, M, Neupert, T; https://orcid.org/0000-0003-0604-041X, Georges, A, Chang, J; https://orcid.org/0000-0002-4655-1516, Sutter, D, Kim, M, Matt, C E, Horio, M, Fittipaldi, R, Vecchione, A, Granata, V, Hauser, K, Sassa, Y, Gatti, G, Grioni, M, Hoesch, M, Kim, T K, Rienks, E, Plumb, N C, Shi, M, Neupert, T; https://orcid.org/0000-0003-0604-041X, Georges, A, and Chang, J; https://orcid.org/0000-0002-4655-1516

Abstract

We present a comprehensive angle-resolved photoemission spectroscopy study of Ca1.8Sr0.2RuO4. Four distinct bands are revealed and along the Ru-O bond direction their orbital characters are identified through a light polarization analysis and comparison to dynamical mean-field theory calculations. Bands assigned to dxz,dyz orbitals display Fermi liquid behavior with fourfold quasiparticle mass renormalization. Extremely heavy fermions—associated with a predominantly dxy band character—are shown to display non-Fermi-liquid behavior. We thus demonstrate that Ca1.8Sr0.2RuO4 is a hybrid metal with an orbitally selective Fermi liquid quasiparticle breakdown.

Published

2019

44. Two-dimensional type-II Dirac fermions in layered oxides

Author

Horio, M, Matt, C E, Kramer, K, Sutter, D, Cook, A M, Sassa, Y, Hauser, K, Månsson, M, Plumb, N C, Shi, M, Lipscombe, O J, Hayden, S M, Neupert, T, Chang, J, University of Zurich, and Horio, M

Subjects

Condensed Matter - Materials Science, Strongly Correlated Electrons (cond-mat.str-el), 530 Physics, Science, Condensed Matter - Superconductivity, General Physics and Astronomy, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, 1600 General Chemistry, Genetics and Molecular Biology, 10192 Physics Institute, General Chemistry, Condensed Matter Physics, 3100 General Physics and Astronomy, Superconductivity (cond-mat.supr-con), Condensed Matter - Strongly Correlated Electrons, 1300 General Biochemistry, Genetics and Molecular Biology, Condensed Matter::Superconductivity, General Biochemistry, lcsh:Q, lcsh:Science, Den kondenserade materiens fysik

Abstract

Relativistic massless Dirac fermions can be probed with high-energy physics experiments, but appear also as low-energy quasi-particle excitations in electronic band structures. In condensed matter systems, their massless nature can be protected by crystal symmetries. Classification of such symmetry-protected relativistic band degeneracies has been fruitful, although many of the predicted quasi-particles still await their experimental discovery. Here we reveal, using angle-resolved photoemission spectroscopy, the existence of two-dimensional type-II Dirac fermions in the high-temperature superconductor La1.77Sr0.23CuO4. The Dirac point, constituting the crossing of dx2-y2 and dz2 bands, is found approximately one electronvolt below the Fermi level (EF) and is protected by mirror symmetry. If spin-orbit coupling is considered, the Dirac point degeneracy is lifted and the bands acquire a topologically non-trivial character. In certain nickelate systems, band structure calculations suggest that the same type-II Dirac fermions can be realised near EF.

Published

2018

45. Band structure of overdoped cuprate superconductors: Density functional theory matching experiments

Author

Kramer, K. P., primary, Horio, M., additional, Tsirkin, S. S., additional, Sassa, Y., additional, Hauser, K., additional, Matt, C. E., additional, Sutter, D., additional, Chikina, A., additional, Schröter, N. B. M., additional, Krieger, J. A., additional, Schmitt, T., additional, Strocov, V. N., additional, Plumb, N. C., additional, Shi, M., additional, Pyon, S., additional, Takayama, T., additional, Takagi, H., additional, Adachi, T., additional, Ohgi, T., additional, Kawamata, T., additional, Koike, Y., additional, Kondo, T., additional, Lipscombe, O. J., additional, Hayden, S. M., additional, Ishikado, M., additional, Eisaki, H., additional, Neupert, T., additional, and Chang, J., additional

Published

2019

46. Orbitally selective breakdown of Fermi liquid quasiparticles in Ca1.8Sr0.2RuO4

Author

Sutter, D., primary, Kim, M., additional, Matt, C. E., additional, Horio, M., additional, Fittipaldi, R., additional, Vecchione, A., additional, Granata, V., additional, Hauser, K., additional, Sassa, Y., additional, Gatti, G., additional, Grioni, M., additional, Hoesch, M., additional, Kim, T. K., additional, Rienks, E., additional, Plumb, N. C., additional, Shi, M., additional, Neupert, T., additional, Georges, A., additional, and Chang, J., additional

Published

2019

47. The molecular Zeeman effect

Author

Sutter, D. H., Flygare, W. H., Davison, Alan, editor, Dewar, Michael J. S., editor, Hafner, Klaus, editor, Heilbronner, Edgar, editor, Hofmann, Ulrich, editor, Lehn, Jean-Marie, editor, Niedenzu, Kurt, editor, Schäfer, Klaus, editor, Wittig, Georg, editor, Boschke, Friedrich L., editor, Craig, D. P., editor, Mellor, D. P., editor, Gleiter, R., editor, Gygax, R., editor, Sutter, D. H., editor, and Flygare, W. H., editor

Published

1976

48. Direct observation of orbital hybridisation in a cuprate superconductor

Author

Matt, C. E., Sutter, D., Cook, A. M., Sassa, Yasmine, Mansson, M., Tjernberg, O., Das, L., Horio, M., Destraz, D., Fatuzzo, C. G., Hauser, K., Shi, M., Kobayashi, M., Strocov, V. N., Schmitt, T., Dudin, P., Hoesch, M., Pyon, S., Takayama, T., Takagi, H., Lipscombe, O. J., Hayden, S. M., Kurosawa, T., Momono, N., Oda, M., Neupert, T., Chang, J., Matt, C. E., Sutter, D., Cook, A. M., Sassa, Yasmine, Mansson, M., Tjernberg, O., Das, L., Horio, M., Destraz, D., Fatuzzo, C. G., Hauser, K., Shi, M., Kobayashi, M., Strocov, V. N., Schmitt, T., Dudin, P., Hoesch, M., Pyon, S., Takayama, T., Takagi, H., Lipscombe, O. J., Hayden, S. M., Kurosawa, T., Momono, N., Oda, M., Neupert, T., and Chang, J.

Abstract

The minimal ingredients to explain the essential physics of layered copper-oxide (cuprates) materials remains heavily debated. Effective low-energy single-band models of the copper-oxygen orbitals are widely used because there exists no strong experimental evidence supporting multi-band structures. Here, we report angle-resolved photoelectron spectroscopy experiments on La-based cuprates that provide direct observation of a two-band structure. This electronic structure, qualitatively consistent with density functional theory, is parametrised by a two-orbital (d(x2-y2) and d(z2)) tight-binding model. We quantify the orbital hybridisation which provides an explanation for the Fermi surface topology and the proximity of the van-Hove singularity to the Fermi level. Our analysis leads to a unification of electronic hopping parameters for single-layer cuprates and we conclude that hybridisation, restraining d-wave pairing, is an important optimisation element for superconductivity.

Published

2018

49. Two-dimensional type-II Dirac fermions in layered oxides

Author

Horio, M; https://orcid.org/0000-0003-2669-5368, Matt, C E; https://orcid.org/0000-0003-1807-9805, Kramer, K, Sutter, D; https://orcid.org/0000-0003-0139-8076, Cook, A M, Sassa, Y, Hauser, K, Månsson, M; https://orcid.org/0000-0002-3086-9642, Plumb, N C; https://orcid.org/0000-0002-2334-8494, Shi, M, Lipscombe, O J, Hayden, S M, Neupert, T; https://orcid.org/0000-0003-0604-041X, Chang, J; https://orcid.org/0000-0002-4655-1516, Horio, M; https://orcid.org/0000-0003-2669-5368, Matt, C E; https://orcid.org/0000-0003-1807-9805, Kramer, K, Sutter, D; https://orcid.org/0000-0003-0139-8076, Cook, A M, Sassa, Y, Hauser, K, Månsson, M; https://orcid.org/0000-0002-3086-9642, Plumb, N C; https://orcid.org/0000-0002-2334-8494, Shi, M, Lipscombe, O J, Hayden, S M, Neupert, T; https://orcid.org/0000-0003-0604-041X, and Chang, J; https://orcid.org/0000-0002-4655-1516

Abstract

Relativistic massless Dirac fermions can be probed with high-energy physics experiments, but appear also as low-energy quasi-particle excitations in electronic band structures. In condensed matter systems, their massless nature can be protected by crystal symmetries. Classification of such symmetry-protected relativistic band degeneracies has been fruitful, although many of the predicted quasi-particles still await their experimental discovery. Here we reveal, using angle-resolved photoemission spectroscopy, the existence of two-dimensional type-II Dirac fermions in the high-temperature superconductor La1.77Sr0.23CuO4. The Dirac point, constituting the crossing of dx2−y2 and dz2 bands, is found approximately one electronvolt below the Fermi level (EF) and is protected by mirror symmetry. If spin-orbit coupling is considered, the Dirac point degeneracy is lifted and the bands acquire a topologically non-trivial character. In certain nickelate systems, band structure calculations suggest that the same type-II Dirac fermions can be realised near EF.

Published

2018

50. Direct observation of orbital hybridisation in a cuprate superconductor

Author

Matt, C E; https://orcid.org/0000-0003-1807-9805, Sutter, D; https://orcid.org/0000-0003-0139-8076, Cook, A M, et al, Matt, C E; https://orcid.org/0000-0003-1807-9805, Sutter, D; https://orcid.org/0000-0003-0139-8076, Cook, A M, and et al

Abstract

The minimal ingredients to explain the essential physics of layered copper-oxide (cuprates) materials remains heavily debated. Effective low-energy single-band models of the copper–oxygen orbitals are widely used because there exists no strong experimental evidence supporting multi-band structures. Here, we report angle-resolved photoelectron spectroscopy experiments on La-based cuprates that provide direct observation of a two-band structure. This electronic structure, qualitatively consistent with density functional theory, is parametrised by a two-orbital (dx2−y2 and dz2) tight-binding model. We quantify the orbital hybridisation which provides an explanation for the Fermi surface topology and the proximity of the van-Hove singularity to the Fermi level. Our analysis leads to a unification of electronic hopping parameters for single-layer cuprates and we conclude that hybridisation, restraining d-wave pairing, is an important optimisation element for superconductivity.

Published

2018