Your search keyword '"Kiefl, Robert F."' showing total 18 results

1. Ion-Implanted $^8$Li Nuclear Magnetic Resonance in Highly Oriented Pyrolytic Graphite

Author

Ticknor, John O., Adelman, Jonah R., Chatzichristos, Aris, Dehn, Martin H., Egoriti, Luca, Fujimoto, Derek, Karner, Victoria L., Kiefl, Robert F., Levy, C. D. Philip, Li, Ruohong, McFadden, Ryan M. L., Morris, Gerald D., Stachura, Monika, Thoeng, Edward, and MacFarlane, W. Andrew

Subjects

Condensed Matter - Other Condensed Matter, 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, Other Condensed Matter (cond-mat.other)

Abstract

We report $\beta$-detected nuclear magnetic resonance of ultra-dilute $^{8}$Li$^{+}$ implanted in highly oriented pyrolytic graphite (HOPG). The absence of motional narrowing and diffusional spin-lattice relaxation implies Li$^+$ is not appreciably mobile up to 400 K, in sharp contrast to the highly lithiated stage compounds. However, the relaxation is remarkably fast and persists down to cryogenic temperatures. Ruling out extrinsic paramagnetic impurities and intrinsic ferromagnetism, we conclude the relaxation is due to paramagnetic centers correlated with implantation. While the resulting effects are not consistent with a Kondo impurity, they also differ from free paramagnetic centers, and we suggest that a resonant scattering approach may account for much of the observed phenomenology.

Published

2023

2. Depth-resolved measurement of the Meissner screening profile in a niobium thin film from spin-lattice relaxation of the implanted $\beta$-emitter $^{8}$Li

Author

McFadden, Ryan M. L., Asaduzzaman, Md, Buck, Terry J., Cortie, David L., Dehn, Martin H., Dunsiger, Sarah R., Kiefl, Robert F., Laxdal, Robert E., Levy, C. D. Philip, MacFarlane, W. Andrew, Morris, Gerald D., Pearson, Matthew R., Thoeng, Edward, and Junginger, Tobias

Subjects

Condensed Matter - Materials Science, Condensed Matter - Superconductivity

Abstract

We report measurements of the Meissner screening profile in a Nb(300 nm)/Al$_{2}$O$_{3}$ thin film using $^{8}$Li $\beta$-detected nuclear magnetic resonance ($\beta$-NMR). The NMR probe $^{8}$Li was ion-implanted into the Nb film at energies $\leq$ 20 keV, corresponding to mean stopping depths comparable to Nb's magnetic penetration depth $\lambda$. $^{8}$Li's strong dipole-dipole coupling with the host $^{93}$Nb nuclei provided a "cross-relaxation" channel that dominated in low magnetic fields, which conferred indirect sensitivity to the local magnetic field via the spin-lattice relaxation (SLR) rate $1/T_{1}$. From a fit of the $1/T_{1}$ data to a model accounting for its dependence on temperature, magnetic field, and $^{8}$Li$^{+}$ implantation energy, we obtained a magnetic penetration depth $\lambda_{0}$ = 51.5(22) nm, consistent with a relatively short carrier mean-free-path $\ell$ = 18.7(29) nm typical of similarly prepared Nb films. The results presented here constitute an important step towards using $^{8}$Li $\beta$-NMR to characterize bulk Nb samples with engineered surfaces, which are often used in the fabrication of particle accelerators., Comment: 15 pages, 3 figures

Published

2022

3. A New High Parallel-Field Spectrometer at TRIUMF's $β$-NMR Facility

Author

Thoeng, Edward, McFadden, Ryan M. L., Saminathan, Suresh, Morris, Gerald D., Kolb, Philipp, Matheson, Ben, Asaduzzaman, Md, Baartman, Richard, Dunsiger, Sarah R., Fujimoto, Derek, Junginger, Tobias, Karner, Victoria L., Kiy, Spencer, Li, Ruohong, Stachura, Monika, Ticknor, John O., Kiefl, Robert F., MacFarlane, W. Andrew, and Laxdal, Robert E.

Subjects

Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

A new high field spectrometer has been built to extend the capabilities of the $β$-detected nuclear magnetic resonance ($β$-NMR) facility at TRIUMF. This new beamline extension allows $β$-NMR spectroscopy to be performed with fields up to 200 mT parallel to a sample's surface (perpendicular to the ion beam), allowing depth-resolved studies of local electromagnetic fields with spin polarized probes at a much higher applied magnetic field than previously available in this configuration. The primary motivation and application is to allow studies of superconducting radio frequency (SRF) materials, close to the critical fields of Nb metal, which is extensively used to fabricate SRF cavities. The details of the design considerations and implementation of the ultra-high vacuum (UHV) system, ion optics, beam diagnostics are presented here. Commissioning of the beamline and spectrometer with radioactive ions are also reported here. Future capabilities and applications in other areas are also described., Co-authors' misspelled names are fixed to conform with their ORCiD. Typho in eq. (1) is fixed

Published

2022

4. Depth-resolved measurement of the Meissner screening profile in a niobium thin film from spin-lattice relaxation of the implanted $β$-emitter $^{8}$Li

Author

McFadden, Ryan M. L., Asaduzzaman, Md, Buck, Terry J., Cortie, David L., Dehn, Martin H., Dunsiger, Sarah R., Kiefl, Robert F., Laxdal, Robert E., Levy, C. D. Philip, MacFarlane, W. Andrew, Morris, Gerald D., Pearson, Matthew R., Thoeng, Edward, and Junginger, Tobias

Subjects

Superconductivity (cond-mat.supr-con), Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

We report measurements of the Meissner screening profile in a Nb(300 nm)/Al$_{2}$O$_{3}$ thin film using $^{8}$Li $β$-detected nuclear magnetic resonance ($β$-NMR). The NMR probe $^{8}$Li was ion-implanted into the Nb film at energies $\leq$ 20 keV, corresponding to mean stopping depths comparable to Nb's magnetic penetration depth $λ$. $^{8}$Li's strong dipole-dipole coupling with the host $^{93}$Nb nuclei provided a "cross-relaxation" channel that dominated in low magnetic fields, which conferred indirect sensitivity to the local magnetic field via the spin-lattice relaxation (SLR) rate $1/T_{1}$. From a fit of the $1/T_{1}$ data to a model accounting for its dependence on temperature, magnetic field, and $^{8}$Li$^{+}$ implantation energy, we obtained a magnetic penetration depth $λ_{0}$ = 51.5(22) nm, consistent with a relatively short carrier mean-free-path $\ell$ = 18.7(29) nm typical of similarly prepared Nb films. The results presented here constitute an important step towards using $^{8}$Li $β$-NMR to characterize bulk Nb samples with engineered surfaces, which are often used in the fabrication of particle accelerators., 15 pages, 3 figures

Published

2022

5. Local Electronic Structure and Dynamics of Muon-Polaron Complexes in Fe2 O3

Author

Dehn, Martin H., Shenton, J. Kane, Arseneau, Donald J., MacFarlane, Andrew W., Morris, Gerald D., Maigné, A., Spaldin, Nicola A., and Kiefl, Robert F.

Subjects

Condensed Matter::Strongly Correlated Electrons

Abstract

We perform detailed muon spin rotation (μSR) measurements in the classic antiferromagnet Fe2O3 and explain the spectra by considering dynamic population and dissociation of charge-neutral muon-polaron complexes. We show that charge-neutral muon states in Fe2O3, despite lacking the signatures typical of charge-neutral muonium centers in nonmagnetic materials, have a significant impact on the measured μSR frequencies and relaxation rates. Our identification of such polaronic muon centers in Fe2O3 suggests that isolated hydrogen (H) impurities form analogous complexes, and that H interstitials may be a source of charge carrier density in Fe2O3. ISSN:0031-9007 ISSN:1079-7114

Published

2021

6. Local electronic and magnetic properties of the doped topological insulators Bi$_{2}$Se$_{3}$:Ca and Bi$_{2}$Te$_{3}$:Mn investigated using ion-implanted $^{8}$Li $\beta$-NMR

Author

McFadden, Ryan M. L., Chatzichristos, Aris, Cortie, David L., Fujimoto, Derek, Hor, Yew San, Ji, Huiwen, Karner, Victoria L., Kiefl, Robert F., Levy, C. D. Philip, Li, Ruohong, McKenzie, Iain, Morris, Gerald D., Pearson, Matthew R., Stachura, Monika, Cava, Robert J., and MacFarlane, W. Andrew

Subjects

Condensed Matter - Materials Science

Abstract

We report $\beta$-detected nuclear magnetic resonance ($\beta$-NMR) measurements in Bi$_{2}$Se$_{3}$:Ca (BSC) and Bi$_{2}$Te$_{3}$:Mn (BTM) single crystals using $^{8}$Li$^{+}$ implanted to depths on the order of 100 nm. Above $\sim 200$ K, spin-lattice relaxation (SLR) reveals diffusion of $^{8}$Li$^{+}$, with activation energies of $\sim 0.4$ eV ($\sim 0.2$ eV) in BSC (BTM). At lower temperatures, the nuclear magnetic resonance (NMR) properties are those of a heavily doped semiconductor in the metallic limit, with Korringa relaxation and a small, negative, temperature-dependent Knight shift in BSC. From this, we make a detailed comparison with the isostructural tetradymite Bi$_{2}$Te$_{2}$Se (BTS) [McFadden et al., Phys Rev. B 99, 125201 (2019)]. In the magnetic BTM, the effects of the dilute Mn moments predominate, but remarkably the $^{8}$Li signal is not wiped out through the magnetic transition at 13 K, with a prominent critical peak in the SLR that is suppressed in a high applied field. This detailed characterization of the $^{8}$Li NMR response is an important step towards using depth-resolved $\beta$-NMR to study the low-energy properties of the chiral topological surface state (TSS). With the bulk NMR response now established in several Bi$_{2}$Ch$_{3}$ tetradymite topological insulators (TIs), the prospect of directly probing their chiral TSS using the depth resolution afforded by $\beta$-NMR remains strong., Comment: 14 pages, 10 figures

Published

2019

7. Local Metallic and Structural Properties of the Strongly Correlated Metal LaNiO$_{3}$ using $^{8}$Li $\beta$-NMR

Author

Karner, Victoria L., Chatzichristos, Aris, Cortie, David L., Dehn, Martin H., Foyevtsov, Oleksandr, Foyevtsova, Kateryna, Fujimoto, Derek, Kiefl, Robert F., Levy, C. D. Philip, Li, Ruohong, McFadden, Ryan M. L., Morris, Gerald D., Pearson, Matthew R., Stachura, Monika, Ticknor, John O., Cristiani, Georg, Logvenov, Gennady, Wrobel, Friedrike, Keimer, Bernhard, Zhang, Junjie, Mitchell, John F., and MacFarlane, W. Andrew

Subjects

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

Abstract

We report $\beta$-detected NMR of ion-implanted $^{8}$Li in a single crystal and thin film of the strongly correlated metal LaNiO$_{3}$. In both samples, spin-lattice relaxation measurements reveal two distinct local metallic environments, as is evident from $T$-linear Korringa $1/T_{1}$ below 200 K with slopes comparable to other metals. A small, approximately temperature independent Knight shift of $\sim 74$ ppm is observed, yielding a normalized Korringa product characteristic of substantial antiferromagnetic correlations, but, we find no evidence for a magnetic transition from 4 to 310 K. Two distinct, equally abundant $^{8}$Li sites is inconsistent with the widely accepted rhombohedral structure of LaNiO$_{3}$, but cannot be simply explained by either of the common alternative orthorhombic or monoclinic distortions., Comment: 10 pages, 8 figures

Published

2019

8. Investigation of Ionic and Anomalous Magnetic Behavior in CrSe$_2$ Using $^8$Li $��$-NMR

Author

Ticknor, John O., Umegaki, Izumi, McFadden, Ryan M. L., Chatzichristos, Aris, Fujimoto, Derek, Karner, Victoria L., Kiefl, Robert F., Kobayashi, Shintaro, Levy, C. D. Phillip, Li, Ruohong, Morris, Gerald D., Pearson, Matthew R., Yoshimura, Kazuyoshi, Sugiyama, Jun, and MacFarlane, W. Andrew

Subjects

Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

We have studied a mosaic of 1T-CrSe$_2$ single crystals using $��$-detected nuclear magnetic resonance of $^{8}$Li from 4 to 300 K. We identify two broad resonances that show no evidence of quadrupolar splitting, indicating two magnetically distinct environments for the implanted ion. We observe stretched exponential spin lattice relaxation and a corresponding rate ($1/T_1$) that increases monotonically above 200 K, consistent with the onset of ionic diffusion. A pronounced maximum in $1/T_1$ is observed at the low temperature magnetic transition near 20 K. Between these limits, $1/T_1$ instead exhibits a broad minimum with a remarkable absence of strong features in the vicinity of structural and magnetic transitions between 150 and 200 K. Together, the results suggest $^{8}$Li$^{+}$ site occupation within the van der Waals gap between CrSe$_2$ trilayers. Possible origins of the two environments are discussed.

Published

2019

9. Local Metallic and Structural Properties of the Strongly Correlated Metal LaNiO$_{3}$ using $^{8}$Li $��$-NMR

Author

Karner, Victoria L., Chatzichristos, Aris, Cortie, David L., Dehn, Martin H., Foyevtsov, Oleksandr, Foyevtsova, Kateryna, Fujimoto, Derek, Kiefl, Robert F., Levy, C. D. Philip, Li, Ruohong, McFadden, Ryan M. L., Morris, Gerald D., Pearson, Matthew R., Stachura, Monika, Ticknor, John O., Cristiani, Georg, Logvenov, Gennady, Wrobel, Friedrike, Keimer, Bernhard, Zhang, Junjie, Mitchell, John F., and MacFarlane, W. Andrew

Subjects

Strongly Correlated Electrons (cond-mat.str-el), Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

We report $��$-detected NMR of ion-implanted $^{8}$Li in a single crystal and thin film of the strongly correlated metal LaNiO$_{3}$. In both samples, spin-lattice relaxation measurements reveal two distinct local metallic environments, as is evident from $T$-linear Korringa $1/T_{1}$ below 200 K with slopes comparable to other metals. A small, approximately temperature independent Knight shift of $\sim 74$ ppm is observed, yielding a normalized Korringa product characteristic of substantial antiferromagnetic correlations, but, we find no evidence for a magnetic transition from 4 to 310 K. Two distinct, equally abundant $^{8}$Li sites is inconsistent with the widely accepted rhombohedral structure of LaNiO$_{3}$, but cannot be simply explained by either of the common alternative orthorhombic or monoclinic distortions., 10 pages, 8 figures

Published

2019

10. Local electronic and magnetic properties of the doped topological insulators Bi$_{2}$Se$_{3}$:Ca and Bi$_{2}$Te$_{3}$:Mn investigated using ion-implanted $^{8}$Li $��$-NMR

Author

McFadden, Ryan M. L., Chatzichristos, Aris, Cortie, David L., Fujimoto, Derek, Hor, Yew San, Ji, Huiwen, Karner, Victoria L., Kiefl, Robert F., Levy, C. D. Philip, Li, Ruohong, McKenzie, Iain, Morris, Gerald D., Pearson, Matthew R., Stachura, Monika, Cava, Robert J., and MacFarlane, W. Andrew

Subjects

Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

We report $��$-detected nuclear magnetic resonance ($��$-NMR) measurements in Bi$_{2}$Se$_{3}$:Ca (BSC) and Bi$_{2}$Te$_{3}$:Mn (BTM) single crystals using $^{8}$Li$^{+}$ implanted to depths on the order of 100 nm. Above $\sim 200$ K, spin-lattice relaxation (SLR) reveals diffusion of $^{8}$Li$^{+}$, with activation energies of $\sim 0.4$ eV ($\sim 0.2$ eV) in BSC (BTM). At lower temperatures, the nuclear magnetic resonance (NMR) properties are those of a heavily doped semiconductor in the metallic limit, with Korringa relaxation and a small, negative, temperature-dependent Knight shift in BSC. From this, we make a detailed comparison with the isostructural tetradymite Bi$_{2}$Te$_{2}$Se (BTS) [McFadden et al., Phys Rev. B 99, 125201 (2019)]. In the magnetic BTM, the effects of the dilute Mn moments predominate, but remarkably the $^{8}$Li signal is not wiped out through the magnetic transition at 13 K, with a prominent critical peak in the SLR that is suppressed in a high applied field. This detailed characterization of the $^{8}$Li NMR response is an important step towards using depth-resolved $��$-NMR to study the low-energy properties of the chiral topological surface state (TSS). With the bulk NMR response now established in several Bi$_{2}$Ch$_{3}$ tetradymite topological insulators (TIs), the prospect of directly probing their chiral TSS using the depth resolution afforded by $��$-NMR remains strong., 14 pages, 10 figures

Published

2019

11. Ionic and electronic properties of the topological insulator Bi$_2$Te$_2$Se investigated using $\beta$-detected nuclear magnetic relaxation and resonance of $^8$Li

Author

McFadden, Ryan M. L., Chatzichristos, Aris, Chow, Kim H., Cortie, David L., Dehn, Martin H., Fujimoto, Derek, Hossain, Masrur D., Ji, Huiwen, Karner, Victoria L., Kiefl, Robert F., Levy, C. D. Philip, Li, Ruohong, McKenzie, Iain, Morris, Gerald D., Ofer, Oren, Pearson, Matthew R., Stachura, Monika, Cava, Robert J., and MacFarlane, W. Andrew

Subjects

Condensed Matter - Materials Science

Abstract

We report measurements on the high temperature ionic and low temperature electronic properties of the 3D topological insulator Bi$_2$Te$_2$Se using ion-implanted $^8$Li $\beta$-detected nuclear magnetic relaxation and resonance. With implantation energies in the range 5-28 keV, the probes penetrate beyond the expected range of the topological surface state, but are still within 250 nm of the surface. At temperatures above ~150 K, spin-lattice relaxation measurements reveal isolated $^8$Li$^{+}$ diffusion with an activation energy $E_{A} = 0.185(8)$ eV and attempt frequency $\tau_{0}^{-1} = 8(3) \times 10^{11}$ s$^{-1}$ for atomic site-to-site hopping. At lower temperature, we find a linear Korringa-like relaxation mechanism with a field dependent slope and intercept, which is accompanied by an anomalous field dependence to the resonance shift. We suggest that these may be related to a strong contribution from orbital currents or the magnetic freezeout of charge carriers in this heavily compensated semiconductor, but that conventional theories are unable to account for the extent of the field dependence. Conventional NMR of the stable host nuclei may help elucidate their origin., Comment: 17 pages, 12 figures, submitted to Phys. Rev. B

Published

2018

12. Ionic and electronic properties of the topological insulator Bi$_2$Te$_2$Se investigated using $��$-detected nuclear magnetic relaxation and resonance of $^8$Li

Author

McFadden, Ryan M. L., Chatzichristos, Aris, Chow, Kim H., Cortie, David L., Dehn, Martin H., Fujimoto, Derek, Hossain, Masrur D., Ji, Huiwen, Karner, Victoria L., Kiefl, Robert F., Levy, C. D. Philip, Li, Ruohong, McKenzie, Iain, Morris, Gerald D., Ofer, Oren, Pearson, Matthew R., Stachura, Monika, Cava, Robert J., and MacFarlane, W. Andrew

Subjects

Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

We report measurements on the high temperature ionic and low temperature electronic properties of the 3D topological insulator Bi$_2$Te$_2$Se using ion-implanted $^8$Li $��$-detected nuclear magnetic relaxation and resonance. With implantation energies in the range 5-28 keV, the probes penetrate beyond the expected range of the topological surface state, but are still within 250 nm of the surface. At temperatures above ~150 K, spin-lattice relaxation measurements reveal isolated $^8$Li$^{+}$ diffusion with an activation energy $E_{A} = 0.185(8)$ eV and attempt frequency $��_{0}^{-1} = 8(3) \times 10^{11}$ s$^{-1}$ for atomic site-to-site hopping. At lower temperature, we find a linear Korringa-like relaxation mechanism with a field dependent slope and intercept, which is accompanied by an anomalous field dependence to the resonance shift. We suggest that these may be related to a strong contribution from orbital currents or the magnetic freezeout of charge carriers in this heavily compensated semiconductor, but that conventional theories are unable to account for the extent of the field dependence. Conventional NMR of the stable host nuclei may help elucidate their origin., 17 pages, 12 figures, submitted to Phys. Rev. B

Published

2018

13. Microscopic Dynamics of Li$^{+}$ in Rutile TiO$_{2}$ Revealed by $^{8}$Li $\beta$-detected NMR

Author

McFadden, Ryan M. L., Buck, Terry J., Chatzichristos, Aris, Chen, Chia-Chin, Cortie, David L., Chow, Kim H., Dehn, Martin H., Karner, Victoria L., Koumoulis, Dimitrios, Levy, C. D. Philip, Li, Chilin, McKenzie, Iain, Merkle, Rotraut, Morris, Gerald D., Pearson, Matthew R., Salman, Zaher, Samuelis, Dominik, Stachura, Monika, Xiao, Jiyu, Maier, Joachim, Kiefl, Robert F., and MacFarlane, W. Andrew

Subjects

Condensed Matter - Materials Science

Abstract

We report measurements of the dynamics of isolated $^{8}$Li$^{+}$ in single crystal rutile TiO$_{2}$ using $\beta$-detected NMR. From spin-lattice relaxation and motional narrowing, we find two sets of thermally activated dynamics: one below 100 K; and one at higher temperatures. At low temperature, the activation barrier is $26.8(6)$ meV with prefactor $1.23(5) \times 10^{10}$ s$^{-1}$. We suggest this is unrelated to Li$^{+}$ motion, and rather is a consequence of electron polarons in the vicinity of the implanted $^{8}$Li$^{+}$ that are known to become mobile in this temperature range. Above 100 K, Li$^{+}$ undergoes long-range diffusion as an isolated uncomplexed cation, characterized by an activation energy and prefactor of $0.32(2)$ eV and $1.0(5) \times 10^{16}$ s$^{-1}$, in agreement with macroscopic diffusion measurements. These results in the dilute limit from a microscopic probe indicate that Li$^{+}$ concentration does not limit the diffusivity even up to high concentrations, but that some key ingredient is missing in the calculations of the migration barrier. The anomalous prefactors provide further insight into both Li$^{+}$ and polaron motion., Comment: 14 pages, 9 figures

Published

2017

14. Microscopic Dynamics of Li$^{+}$ in Rutile TiO$_{2}$ Revealed by $^{8}$Li $��$-detected NMR

Author

McFadden, Ryan M. L., Buck, Terry J., Chatzichristos, Aris, Chen, Chia-Chin, Cortie, David L., Chow, Kim H., Dehn, Martin H., Karner, Victoria L., Koumoulis, Dimitrios, Levy, C. D. Philip, Li, Chilin, McKenzie, Iain, Merkle, Rotraut, Morris, Gerald D., Pearson, Matthew R., Salman, Zaher, Samuelis, Dominik, Stachura, Monika, Xiao, Jiyu, Maier, Joachim, Kiefl, Robert F., and MacFarlane, W. Andrew

Subjects

Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences

Abstract

We report measurements of the dynamics of isolated $^{8}$Li$^{+}$ in single crystal rutile TiO$_{2}$ using $��$-detected NMR. From spin-lattice relaxation and motional narrowing, we find two sets of thermally activated dynamics: one below 100 K; and one at higher temperatures. At low temperature, the activation barrier is $26.8(6)$ meV with prefactor $1.23(5) \times 10^{10}$ s$^{-1}$. We suggest this is unrelated to Li$^{+}$ motion, and rather is a consequence of electron polarons in the vicinity of the implanted $^{8}$Li$^{+}$ that are known to become mobile in this temperature range. Above 100 K, Li$^{+}$ undergoes long-range diffusion as an isolated uncomplexed cation, characterized by an activation energy and prefactor of $0.32(2)$ eV and $1.0(5) \times 10^{16}$ s$^{-1}$, in agreement with macroscopic diffusion measurements. These results in the dilute limit from a microscopic probe indicate that Li$^{+}$ concentration does not limit the diffusivity even up to high concentrations, but that some key ingredient is missing in the calculations of the migration barrier. The anomalous prefactors provide further insight into both Li$^{+}$ and polaron motion., 14 pages, 9 figures

Published

2017

15. Controlling the near-surface superfluid density in underdoped YBa2Cu3O6+x by photo-illumination

Author

Stilp, Evelyn, Suter, Andreas, Prokscha, Thomas, Salman, Zaher, Morenzoni, Elvezio, Keller, Hugo, Pahlke, Patrick, Hühne, Ruben, Bernhard, Christian, Liang, Ruixing, Hardy, Walter N., Bonn, Doug A., Baglo, J.C., Kiefl, Robert F., University of Zurich, and Stilp, E

Subjects

1000 Multidisciplinary, Surfaces, interfaces and thin films, 530 Physics, Condensed Matter::Superconductivity, Superconducting properties and materials, 10192 Physics Institute

Abstract

The interaction with light weakens the superconducting ground state in classical superconductors. The situation in cuprate superconductors is more complicated: illumination increases the charge carrier density, a photo-induced effect that persists below room temperature. Furthermore, systematic investigations in underdoped YBa2Cu3O6+x (YBCO) have shown an enhanced critical temperature Tc. Until now, studies of photo-persistent conductivity (PPC) have been limited to investigations of structural and transport properties, as well as the onset of superconductivity. Here we show how changes in the magnetic screening profile of YBCO in the Meissner state due to PPC can be determined on a nanometer scale utilizing low-energy muons. The data obtained reveal a strongly increased superfluid density within the first few tens of nanometers from the sample surface. Our findings suggest a non-trivial modification of the near-surface band structure and give direct evidence that the superfluid density of YBCO can be controlled by light illumination., Scientific Reports, 4, ISSN:2045-2322

Published

2014

16. $^{31}$Mg $\beta$-NMR applied in chemistry and biochemistry

Author

Stachura, Monika, Gottberg, Alexander, Kowalska, Magdalena, Johnston, Karl, Bissell, Mark L, Garcia Ruiz, Ronald F, Georgiev, Georgi, Luczkowski, Marek, Neyens, Gerda, Kiefl, Robert F, MacFarlane, Andrew, Yordanov, Deyan T, Zeitz, Wolf-Dietrich, Thulstrup, Peter W, and Hemmingsen, Lars

Subjects

Detectors and Experimental Techniques

Published

2013

17. MUONIUM IN Al//2O//3 POWDER AT LOW TEMPERATURE

Author

Kiefl, Robert F., Warren, John B., Oram, Chris J., Jesse H. Brewer, and Harshman, Dale R.

18. Observation of a Charge-Neutral Muon-Polaron Complex in Antiferromagnetic Cr2O3

Author

Dehn, Martin H., Shenton, John K., Holenstein, Stefan, Meier, Quintin N., Arseneau, Donald J., Cortie, David L., Hitti, B., Fang, A.C.Y., MacFarlane, W.A., McFadden, Ryan M.L., Morris, Gerald D., Salman, Zaher, Luetkens, Hubertus, Spaldin, Nicola, Fechner, Michael, and Kiefl, Robert F.

Subjects

Condensed Matter::Materials Science, 3. Good health

Abstract

We report a comprehensive muon spin rotation (μSR) study of the prototypical magnetoelectric antiferromagnet Cr2O3. We find the positively charged muon (μ+) occupies several distinct interstitial sites and displays a rich dynamic behavior involving local hopping, thermally activated site transitions, and the formation of a charge-neutral complex composed of a muon and an electron polaron. The discovery of such a complex has implications for the interpretation of μSR spectra in a wide range of magnetic oxides and opens a route to study the dopant characteristics of interstitial hydrogen impurities in such materials. We address implications arising from implanting a μ+ into a linear magnetoelectric and discuss the challenges of observing a local magnetoelectric effect generated by the charge of the muon., Physical Review X, 10 (1), ISSN:2160-3308