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221 results on '"Renner, Ch."'

1. Skyrmion-(Anti)Vortex Coupling in a Chiral Magnet-Superconductor Heterostructure

Author

Petrović, A. P., Raju, M., Tee, X. Y., Louat, A., Maggio-Aprile, I., Menezes, R. M., Wyszyński, M. J., Duong, N. K., Reznikov, M., Renner, Ch., Milošević, M. V., and Panagopoulos, C.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

We report experimental coupling of chiral magnetism and superconductivity in [IrFeCoPt]/Nb heterostructures. The stray field of skyrmions with radius ~50nm is sufficient to nucleate antivortices in a 25nm Nb film, with unique signatures in the magnetization, critical current and flux dynamics, corroborated via simulations. We also detect a thermally-tunable Rashba-Edelstein exchange coupling in the isolated skyrmion phase. This realization of a strongly interacting skyrmion-(anti)vortex system opens a path towards controllable topological hybrid materials, unattainable to date., Comment: 6 pages, 4 figures

Published
2021
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2. Electronic coupling between Bi nanolines and the Si(001) substrate: An experimental and theoretical study

Author

Longobardi, M., Kirkham, C. J., Villarreal, R., Koster, S. A., Bowler, D. R., and Renner, Ch.

Subjects
Condensed Matter - Materials Science
Abstract

Atomic nanolines are one dimensional systems realized by assembling many atoms on a substrate into long arrays. The electronic properties of the nanolines depend on those of the substrate. Here, we demonstrate that to fully understand the electronic properties of Bi nanolines on clean Si(001) several different contributions must be accounted for. Scanning tunneling microscopy reveals a variety of different patterns along the nanolines as the imaging bias is varied. We observe an electronic phase shift of the Bi dimers, associated with imaging atomic p-orbitals, and an electronic coupling between the Bi nanoline and neighbouring Si dimers, which influences the appearance of both. Understanding the interplay between the Bi nanolines and Si substrate could open a novel route to modifying the electronic properties of the nanolines., Comment: 6 pages (main), 2 pages (SI), accepted by Phys. Rev. B

Published
2017
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3. Sub-atomic electronic feature from dynamic motion of Si dimer defects in bismuth nanolines on Si(001)

Author

Kirkham, C. J., Longobardi, M., Koster, S. A., Renner, Ch., and Bowler, D. R.

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

Scanning tunneling microscopy (STM) reveals unusual sharp features in otherwise defect free bismuth nanolines self-assembled on Si(001). They appear as subatomic thin lines perpendicular to the bismuth nanoline at positive biases and as atomic size beads at negative biases. Density functional theory (DFT) simulations show that these features can be attributed to buckled Si dimers substituting for Bi dimers in the nanoline, where the sharp feature is the counterintuitive signature of these dimers flipping during scanning. The perfect correspondence between the STM data and the DFT simulation demonstrated in this study highlights the detailed understanding we have of the complex Bi-Si(001) Haiku system., Comment: Five pages, six figures, submitted to PRL

Published
2017
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4. Stripe and short range order in the charge density wave of 1T-Cu$_x$TiSe$_2$

Author

Novello, A. M., Spera, M., Scarfato, A., Ubaldini, A., Giannini, E., Bowler, D. R., and Renner, Ch.

Subjects
Condensed Matter - Materials Science
Abstract

We study the impact of Cu intercalation on the charge density wave (CDW) in 1T-Cu$_{\text{x}}$TiSe$_{\text{2}}$ by scanning tunneling microscopy and spectroscopy. Cu atoms, identified through density functional theory modeling, are found to intercalate randomly on the octahedral site in the van der Waals gap and to dope delocalized electrons near the Fermi level. While the CDW modulation period does not depend on Cu content, we observe the formation of charge stripe domains at low Cu content (x$<$0.02) and a breaking up of the commensurate order into 2$\times$2 domains at higher Cu content. The latter shrink with increasing Cu concentration and tend to be phase-shifted. These findings invalidate a proposed excitonic pairing as the primary CDW formation mechanism in this material., Comment: 5 pages, 4 figures

Published
2016
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5. Structure of self-assembled Mn atom chains on Si(001)

Author

Villarreal, R., Longobardi, M., Köster, S. A., Kirkham, Ch. J., Bowler, D., and Renner, Ch.

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

Mn has been found to self-assemble into atomic chains running perpendicular to the surface dimer reconstruction on Si(001). They differ from other atomic chains by a striking asymmetric appearance in filled state scanning tunneling microscopy (STM) images. This has prompted complicated structural models involving up to three Mn atoms per chain unit. Combining STM, atomic force microscopy and density functional theory we find that a simple necklace-like chain of single Mn atoms reproduces all their prominent features, including their asymmetry not captured by current models. The upshot is a remarkably simpler structure for modelling the electronic and magnetic properties of Mn atom chains on Si(001)., Comment: 5 pages, 4 figures

Published
2015
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6. STM microscopy of the CDW in 1T-TiSe2 in the presence of single atom defects

Author

Novello, A. M., Hildebrand, B., Scarfato, A., Didiot, C., Monney, G., Ubaldini, A., Berger, H., Bowler, D. R., Aebi, P., and Renner, Ch.

Subjects
Condensed Matter - Materials Science
Abstract

We present a detailed low temperature scanning tunneling microscopy study of the commensurate charge density wave (CDW) in 1$T$-TiSe$_2$ in the presence of single atom defects. We find no significant modification of the CDW lattice in single crystals with native defects concentrations where some bulk probes already measure substantial reductions in the CDW phase transition signature. Systematic analysis of STM micrographs combined with density functional theory modelling of atomic defect patterns indicate that the observed CDW modulation lies in the Se surface layer. The defect patterns clearly show there are no 2$H$-polytype inclusions in the CDW phase, as previously found at room temperature [Titov A.N. et al, Phys. Sol. State 53, 1073 (2011). They further provide an alternative explanation for the chiral Friedel oscillations recently reported in this compound [J. Ishioka et al., Phys. Rev. B 84, 245125, (2011)]., Comment: 5 pages, 4 figures

Published
2015
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7. Half-filled orbital and unconventional geometry of a common dopant in Si(001)

Author

Iwaya, K., Bowler, D. R., Brazdova, V., da Silva, A. Ferreira, Renner, Ch., Wu, W., Fisher, A. J., Stoneham, A. M., and Aeppli, G.

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

The determining factor of the bulk properties of doped Si is the column rather than the row in the periodic table from which the dopants are drawn. It is unknown whether the basic properties of dopants at surfaces and interfaces, steadily growing in importance as microelectronic devices shrink, are also solely governed by their column of origin. The common light impurity P replaces individual Si atoms and maintains the integrity of the dimer superstructure of the Si(001) surface, but loses its valence electrons to surface states. Here we report that isolated heavy dopants are entirely different: Bi atoms form pairs with Si vacancies, retain their electrons and have highly localized, half-filled orbitals., Comment: 8 pages, 8 figures, to appear in Phys. Rev. B

Published
2013

8. Endotaxial Si nanolines in Si(001):H

Author

Bianco, F., Owen, J. H. G., Köster, S. A., Mazur, D., Bowler, D. R., and Renner, Ch.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We present a detailed study of the structural and electronic properties of a self-assembled silicon nanoline embedded in the H-terminated silicon (001) surface, known as the Haiku stripe. The nanoline is a perfectly straight and defect free endotaxial structure of huge aspect ratio; it can grow micrometre long at a constant width of exactly four Si dimers (1.54nm). Another remarkable property is its capacity to be exposed to air without suffering any degradation. The nanoline grows independently of any step edges at tunable densities, from isolated nanolines to a dense array of nanolines. In addition to these unique structural characteristics, scanning tunnelling microscopy and density functional theory reveal a one-dimensional state confined along the Haiku core. This nanoline is a promising candidate for the long sought after electronic solid-state one-dimensional model system to explore the fascinating quantum properties emerging in such reduced dimensionality., Comment: 8 pages, 6 figures

Published
2011
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9. Piezoresistance in silicon at uniaxial compressive stresses up to 3 GPa

Author

Milne, J. S., Favorskiy, I., Rowe, A. C. H., Arscott, S., and Renner, Ch.

Subjects
Condensed Matter - Materials Science
Abstract

The room-temperature longitudinal piezoresistance of n-type and p-type crystalline silicon along selected crystal axes is investigated under uniaxial compressive stresses up to 3 GPa. While the conductance ($G$) of n-type silicon eventually saturates at $\approx 45%$ of its zero-stress value ($G_0$) in accordance with the charge transfer model, in p-type material $G/G_0$ increases above a predicted limit of $\approx 4.5$ without any significant saturation, even at 3 GPa. Calculation of $G/G_0$ using \textit{ab-initio} density functional theory reveals that neither $G$ nor the mobility, when properly averaged over the hole distribution, saturate at stresses lower than 3 GPa. The lack of saturation has important consequences for strained silicon technologies., Comment: 5 pages, 4 figures

Published
2010
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10. One dimensional Si-in-Si(001) template for single-atom wire growth

Author

Owen, J. H. G., Bianco, F., Köster, S. A., Mazur, D., Bowler, D. R., and Renner, Ch.

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

Single atom metallic wires of arbitrary length are of immense technological and scientific interest. We describe a novel silicon-only template enabling the self-organised growth of isolated micrometer long surface and subsurface single-atom chains. It consists of a one dimensional, defect-free reconstruction - the Haiku core, here revealed for the first time in details - self-assembled on hydrogenated Si(001) terraces, independent of any step edges. We discuss the potential of this Si-in-Si template as an appealing alternative to vicinal surfaces for nanoscale patterning., Comment: 3 pages, 2 figures

Published
2010
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11. Giant room temperature piezoresistance in a metal/silicon hybrid

Author

Rowe, A. C. H., Donoso-Barrera, A., Renner, Ch., and Arscott, S.

Subjects
Condensed Matter - Materials Science
Abstract

Metal/semiconductor hybrids are artificially created structures presenting novel properties not exhibited by either of the component materials alone. Here we present a giant piezoresistance effect in a hybrid formed from silicon and aluminum. The maximum piezoresistive gage factor (GF) of 843, measured at room temperature, compares with a GF of -93 measured in the bulk homogeneous silicon. This piezoresistance boost is not due to the silicon/aluminum interface, but results from a stress induced anisotropy in the silicon conductivity that acts to switch current away from the highly conductive aluminum for uniaxial tensile strains. Its magnitude is shown, via the calculation of hybrid resistivity weighting functions, to depend only on the geometrical arrangement of the component parts of the hybrid., Comment: 4 pages, 4 figures, accepted for publication in Physical Review Letters

Published
2008
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12. Polarons and confinement of electronic motion to two dimensions in a layered transition metal oxide

Author

Ronnow, H. M., Renner, Ch., Aeppli, G., Kimura, T., and Tokura, Y.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

A very remarkable feature of the layered transition metal oxides (TMOs), whose most famous members are the high-temperature superconductors (HTSs), is that even though they are prepared as bulk three-dimensional single crystals, they display hugely anisotropic electrical and optical properties, seeming to be insulating perpendicular to the layers and metallic within them. This is the phenomenon of confinement, a concept at odds with the conventional theory of solids and recognized as due to magnetic and electron-lattice interactions in the layers which must be overcome at a substantial energy cost if electrons are to be transferred between layers. The associated energy gap or 'pseudogap' is particularly obvious in experiments where charge is moved perpendicular to the planes, most notably scanning tunneling microscopy (STM) and polarized infrared spectroscopy. Here, using the same experimental tools, we show that there is a second family of TMOs - the layered manganites La2-2xSr1+2xMn2O7 (LSMO) - with even more extreme confinement and pseudogap effects. The data, which are the first to resolve atoms in any metallic manganite, demonstrate quantitatively that because they are attached to polarons - lattice and spin textures within the planes -, it is equally difficult to remove carriers from the planes via vacuum tunneling into a conventional metallic tip, as it is for them to move between Mn-rich layers within the material itself.

Published
2005
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13. Charge ordering, stripes and phase separation in manganese perovskite oxides: an STM/STS study

Author

Renner, Ch., Aeppli, G., and Ronnow, H. M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

A microscopic characterisation of the phase transitions associated with colossal magnetoresistance (CMR) in manganese perovskite oxides is a very important ingredient in the quest of understanding its underlying mechanism. Scanning tunneling microscopy (STM) is most suitable to investigate some of their reported hallmarks, including charge ordering, lattice distortions, and electronic phase separation. Here we investigate Bi1-XCaXMnO3 (BCMO) with x=0.76. At this composition, BCMO develops an insulating charge-ordered phase upon cooling, whose study as a function of temperature will allow identifying atomic scale characteristics of the metal-insulator phase transition (MIT). We observe distinct atomic scale phases at temperatures above and below the MIT, with very different electronic and structural characteristics. Combining STM micrographs and current-voltage tunneling characteristics, we find that charge ordering correlates both with the local conduction state (metallic or insulating) and the local structural order. Furthermore, STM shows coexistence of these phases as expected for a first order phase transition., Comment: Materials Science and Engineering C, (2005). In Press

Published
2005

14. Yakhot's model of strong turbulence: A generalization of scaling models of turbulence

Author

Renner, Ch. and Peinke, J.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We report on some implications of the theory of turbulence developed by V. Yakhot [V. Yakhot, Phys. Rev. E {\bf 57}(2) (1998)]. In particular we focus on the expression for the scaling exponents $\zeta_{n}$. We show that Yakhot's result contains three well known scaling models as special cases, namely K41, K62 and the theory by V. L'vov and I. Procaccia [V. L'vov & I. Procaccia, Phys. Rev. E {\bf 62}(6) (2000)]. The model furthermore yields a theoretical justification for the method of extended self--similarity (ESS)., Comment: 8 pages

Published
2004
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15. On the interaction between velocity increment and energy dissipation in the turbulent cascade

Author

Renner, Ch., Peinke, J., and Friedrich, R.

Subjects
Physics - Fluid Dynamics
Abstract

We adress the problem of interactions between the longitudinal velocity increment and the energy dissipation rate in fully developed turbulence. The coupling between these two quantities is experimentally investigated by the theory of stochastic Markovian processes. The so-called Markov analysis allows for a precise characterization of the joint statistical properties of velocity increment and energy dissipation. In particular, it is possible to determine the differential equation that governs the evolution along scales of the joint probability density of these two quantities. The properties of this equation provide interesting new insights into the coupling between energy dissipation and velocity incrementas leading to small scale intermittency., Comment: Changement of the list of authors, 18 pages, 11 figures

Published
2002

16. Atomic-scale images of charge ordering in a mixed-valence manganite

Author

Renner, Ch., Aeppli, G., Kim, B-G., Soh, Yeong-Ah, and Cheong, S. -W.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Transition-metal perovskite oxides exhibit a wide range of extraordinary but imperfectly understood phenomena. Charge, spin, orbital, and lattice degrees of freedom all undergo order-disorder transitions in regimes not far from where the best-known of these phenomena, namely high-temperature superconductivity of the copper oxides, and the 'colossal' magnetoresistance of the manganese oxides, occur. Mostly diffraction techniques, sensitive either to the spin or the ionic core, have been used to measure the order. Unfortunately, because they are only weakly sensitive to valence electrons and yield superposition of signals from distinct mesoscopic phases, they cannot directly image mesoscopic phase coexistence and charge ordering, two key features of the manganites. Here we describe the first experiment to image charge ordering and phase separation in real space with atomic-scale resolution in a transition metal oxide. Our scanning tunneling microscopy (STM) data show that charge order is correlated with structural order, as well as with whether the material is locally metallic or insulating, thus giving an atomic-scale basis for descriptions of the manganites as mixtures of electronically and structurally distinct phases., Comment: 8 pages, 4 figures, 19 references

Published
2002
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18. On the universality of small scale turbulence

Author

Renner, Ch., Peinke, J., Friedrich, R., Chanal, O., and Chabaud, B.

Subjects
Physics - Fluid Dynamics
Abstract

The proposed universality of small scale turbulence is investigated for a set of measurements in a cryogenic free jet with a variation of the Reynolds number (Re) from 8500 to 10^6. The traditional analysis of the statistics of velocity increments by means of structure functions or probability density functions is replaced by a new method which is based on the theory of stochastic Markovian processes. It gives access to a more complete characterization by means of joint probabilities of finding velocity increments at several scales. Based on this more precise method our results call in question the concept of universality., Comment: 4 pages, 4 figures

Published
2001
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19. Unusual dependence of vortex core states on the superconducting gap in Bi$_2$Sr$_2$CaCu$_2$O$_{8+\delta}$

Author

Hoogenboom, B. W., Kadowaki, K., Revaz, B., Li, M., Renner, Ch., and Fischer, Ø.

Subjects
Condensed Matter - Superconductivity
Abstract

We present a scanning tunneling spectroscopy study on quasiparticle states in vortex cores in Bi$_2$Sr$_2$CaCu$_2$O$_{8+\delta}$. The energy of the observed vortex core states shows an approximately linear scaling with the superconducting gap in the region just outside the core. This clearly distinguishes them from conventional localized core states, and is a signature of the mechanism responsible for their discrete appearance in high-temperature superconductors. The energy scaling of the vortex core states also suggests a common nature of vortex cores in Bi$_2$Sr$_2$CaCu$_2$O$_{8+\delta}$ and YBa$_2$Cu$_3$O$_{7-\delta}$. Finally, the observed vortex core states do not show any dependence on the applied magnetic field in the range from 1 to 6 T., Comment: 4 pages, 4 eps figures

Published
2001

20. Shape and Motion of Vortex Cores in Bi_2Sr_2CaCu_2O_{8+\delta}

Author

Hoogenboom, B. W., Kugler, M., Revaz, B., Maggio-Aprile, I., Fischer, Ø., and Renner, Ch.

Subjects
Condensed Matter - Superconductivity
Abstract

We present a detailed study on the behaviour of vortex cores in Bi_2Sr_2CaCu_2O_{8+\delta} using scanning tunneling spectroscopy. The very irregular distribution and shape of the vortex cores imply a strong pinning of the vortices by defects and inhomogeneities. The observed vortex cores seem to consist of two or more randomly distributed smaller elements. Even more striking is the observation of vortex motion where the vortex cores are divided between two positions before totally moving from one position to the other. Both effects can be explained by quantum tunneling of vortices between different pinning centers., Comment: 7 pages, 4 figures, accepted for publication in Phys. Rev. B (Oct. 2000)

Published
2000
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21. On the Statistics of Small Scale Turbulence and its Universality

Author

Renner, Ch., Reisner, B., Lück, St., Peinke, J., and Friedrich, R.

Subjects
Nonlinear Sciences - Chaotic Dynamics
Abstract

We present a method how to estimate from experimental data of a turbulent velocity field the drift and the diffusion coefficient of a Fokker-Planck equation. It is shown that solutions of this Fokker-Planck equation reproduce with high accuracy the statistics of velocity increments in the inertial range. Using solutions with different initial conditions at large scales we show that they converge. This can be interpreted as a signature of the universality of small scale turbulence in the limit of large inertial ranges., Comment: 9 pages, 3 figures

Published
1998

42. Krebs-Immuntherapie – wo stehen wir?

Author

Kundig Tm, Knuth A, and Renner Ch

Subjects
Oncology, medicine.medical_specialty, Cancer immunotherapy, business.industry, Internal medicine, medicine.medical_treatment, medicine, General Medicine, business
Abstract

Bei der Immuntherapie von Krebserkrankungen wird zwischen passiven und aktiven Strategien unterschieden. Die passive Immuntherapie, z.B. der therapeutische Einsatz von monoklonalen Antikörpern, oder im weitesten Sinn auch von anderen immunologischen Effektormolekülen, wie z.B. Interferon-alpha, ist längst klinisch etabliert. Der zunehmende Erfolg der passiven Immuntherapie belegt, dass das Immunsystem erfolgreich gegen Krebserkrankungen eingesetzt werden kann. Der logische nächste Schritt ist es deshalb eine Weiterentwicklung zur aktiven Immuntherapie, also zur «Impfung gegen Krebs». Diese Übersichtsarbeit konzentriert sich auf die aktive Immuntherapie gegen Krebsleiden und versucht den heutigen Stand der Forschung und des klinischen Fortschrittes darzustellen. Obwohl heute noch keine aktive Immuntherapie außerhalb von klinischen Studien empfohlen werden kann, sind die Daten vielversprechend und es ist zu erwarten, dass einige Impfstoffe demnächst zur Verfügung stehen werden.

Published
2006
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43. Scanning tunneling microscopy of the charge density wave in 1T-TiSe2 in the presence of single atom defects

Author

Novello, A. M., Hildebrand, B., Scarfato, A., Didiot, C., Monney, G., Ubaldini, A., Berger, H., Bowler, D. R., Aebi, P., and Renner, Ch.

Subjects
Charge density wave, Transition metal dichalcogenide, Condensed Matter::Superconductivity, Condensed Matter::Strongly Correlated Electrons, ddc:500.2, Scanning tunneling microscopy
Abstract

We present a detailed low-temperature scanning tunneling microscopy (STM) study of the commensurate charge density wave (CDW) in 1T-TiSe2 in the presence of single atom defects. We find no significant modification of the CDW lattice in single crystals with native defect concentrations where some bulk probes already measure substantial reductions in the CDW phase transition signature. A systematic analysis of STM micrographs combined with density functional theory modeling of atomic defect patterns indicate that the observed CDW modulation lies in the Se surface layer. The defect patterns clearly show there are no 2H-polytype inclusions in the CDW phase, as previously found at room temperature [A. N. Titov et al., Phys. Solid State 53, 1073 (2011)]. They further provide an alternative explanation for the chiral Friedel oscillations recently reported in this compound [J. Ishioka et al., Phys. Rev. B 84, 245125 (2011)].

Published
2015

45. Observation of the Low Temperature Pseudogap in the Vortex Cores of Bi2Sr2CaCu2O8+δ

Author

Renner, Ch., Revaz, B., Kadowaki, K., Maggio-Aprile, I., and Fischer, Ø.

Subjects
ComputingMethodologies_DOCUMENTANDTEXTPROCESSING
Abstract

application/pdf, Vortex cores in under- and overdoped Bi2Sr2CaCu2O8+δ are studied by local probe tunneling spectroscopy. At the center of the cores, we find a gaplike structure at the Fermi level which scales with the superconducting gap, but no quasiparticle bound states. This low temperature pseudogap is intimately related to the superconducting gap and shows striking similarities with the normal state pseudogap measured above Tc. A possible interpretation is that both pseudogap structures reflect the same “normal” state containing phase incoherent excited pair states.

Published
1998

46. Pseudogap Precursor of the Superconducting Gap in Under- and Overdoped Bi2Sr2CaCu2O8+δ

Author

Renner, Ch., Revaz, B., Genoud, J.-Y., Kadowaki, K., and Fischer, Ø.

Subjects
ComputingMethodologies_DOCUMENTANDTEXTPROCESSING
Abstract

application/pdf, We present tunneling spectroscopy of Bi2Sr2CaCu2O8+δ single crystals as a function of oxygen doping and temperature. The doping dependence amounts essentially to an energy scaling of the tunneling spectra, with a quasiparticle gap that is reduced with increasing oxygen concentration. This superconducting gap is temperature independent up to the superconducting transition where the superconducting spectra merge continuously into another gaplike feature at the Fermi level. This pseudogap is found to be present both in underdoped and overdoped samples, and it scales with the superconducting gap.

Published
1998

47. One-dimensional silicon nanolines in the Si(001):H surface

Author

Bianco F., Köster S.A., Longobardi M., Owen J.H.G., Bowler D.R., and Renner Ch.

Abstract

We present a detailed study of the structural and electronic properties of a self assembled silicon nanoline embedded in the monohydride Si(001):H surface known as the Haiku stripe. The nanoline is a perfectly straight and defect free endotaxial structure of huge aspect ratio; it can grow micrometer long at a constant width of exactly four Si dimers (1.54 nm). Another remarkable property is its capacity to be exposed to air without suffering any degradation. The nanoline grows independently of any step edges at tunable densities from isolated nanolines to a dense array of nanolines. In addition to these unique structural characteristics scanning tunnelling microscopy and density functional theory reveal a one dimensional state confined along the Haiku core. This nanoline is a promising candidate for the long sought after electronic solid state onedimensional model system to explore the fascinating quantum properties emerging in such reduced dimensionality.

Published
2013

48. Physical Review B

Author

Iwaya, K., Bowler, D. R., Brázdová, V., Silva, A. Ferreira da, Renner, Ch., Wu, W., Fisher, A. J., Stoneham, A. M., and Aeppli, G.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, ddc:500.2
Abstract

The determining factor of the bulk properties of doped Si is the column rather than the row in the periodic table from which the dopants are drawn. It is unknown whether the basic properties of dopants at surfaces and interfaces, steadily growing in importance as microelectronic devices shrink, are also solely governed by their column of origin. The common light impurity P replaces individual Si atoms and maintains the integrity of the dimer superstructure of the Si(001) surface, but loses its valence electrons to surface states. Here we report that isolated heavy dopants are entirely different: Bi atoms form pairs with Si vacancies, retain their electrons and have highly localized, half-filled orbitals., Comment: 8 pages, 8 figures, to appear in Phys. Rev. B

Published
2013
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