Your search keyword '"Morris GD"' showing total 55 results

1. Communication: Chemisorption of muonium on gold nanoparticles: A sensitive new probe of surface magnetism and reactivity

Author

Dehn, MH, Arseneau, DJ, Böni, P, Bridges, MD, Buck, T, Cortie, DL, Fleming, DG, Kelly, JA, MacFarlane, WA, MacLachlan, MJ, McFadden, RML, Morris, GD, Wang, P-X, Xiao, J, Zamarion, VM, and Kiefl, RF

Subjects

Physical Sciences, Engineering, Nanotechnology, Bioengineering, Chemical Sciences, Chemical Physics, Chemical sciences, Physical sciences

Abstract

Chemisorption of muonium onto the surface of gold nanoparticles has been observed. Muonium (μ+e-), a light hydrogen-like atom, reacts chemically with uncapped 7 nm gold nanoparticles embedded in mesoporous silica (SBA-15) with a strong temperature-dependent rate. The addition rate is fast enough to allow coherent spin transfer into a diamagnetic muon state on the nanoparticle surface. The muon is well established as a sensitive probe of static or slowly fluctuating magnetic fields in bulk matter. These results represent the first muon spin rotation signal on a nanoparticle surface or any metallic surface. Only weak magnetic effects are seen on the surface of these Au nanoparticles consistent with Pauli paramagnetism.

Published

2016

2. Spin Depolarization of Muonium in Mesoporous Silica

Author

Dehn, MH, Arseneau, DJ, Bridges, MD, Buck, T, Cortie, DL, Cottrell, SP, Fleming, DG, Kelly, JA, MacFarlane, WA, MacLachlan, MJ, Morris, GD, McKenzie, I, Xiao, J, and Kiefl, RF

Subjects

Atomic, Molecular, Nuclear, Particle and Plasma Physics, Condensed Matter Physics, Other Physical Sciences

Abstract

We report muon spin rotation/relaxation measurements of muonium in mesoporous silica (SBA-15) with a high specific surface area of 600 m2/g. Up to 70 percent of the incoming muons form muonium and escape efficiently into the open pores at all temperatures between 3 and 300K. We present evidence that the interaction with the silica surfaces involves both spin exchange and a transition to a diamagnetic state, possibly due to dangling bonds on the surface. At very low temperatures, below 20K, the interaction between muonium and the silica surfaces is suppressed due to a He film coating the surfaces. These results indicate that it should be possible to use muonium to probe the surfaces of uncapped nanoparticles supported in silica.

Published

2014

3. 8Li Spin Relaxation as a Probe of the Modification of Molecular Dynamics by Inelastic Deformation of Glassy Polystyrene

Author

Fujimoto, D, primary, Brazil, O, additional, Oliver, WC, additional, Jadidi, MF, additional, Sinnott, A, additional, McKenzie, I, additional, Chatzichristos, A, additional, Dehn, MH, additional, Karner, VL, additional, Kiefl, RF, additional, Levy, CDP, additional, Li, R, additional, McFadden, RML, additional, Morris, GD, additional, Pearson, MR, additional, Stachura, M, additional, Ticknor, JO, additional, MacFarlane, WA, additional, and Cross, GLW, additional

Published

2023

4. beta-detected NMR of Li-8 in the normal state of 2H-NbSe2

Author

Wang, D, Hossain, MD, Salman, Z, Arseneau, D, Chow, KH, Daviel, S, Keeler, TA, Kiefl, RF, Kreitzman, SR, Levy, CDP, Morris, GD, Miller, RI, MacFarlane, WA, Parolin, TJ, and Saadaoui, H

Abstract

beta-NMR of isolated Li-8 has been investigated in the normal state of 2H-NbSe2. In a high magnetic field of 3 T a single resonance is observed with a Gaussian line width of 3.5 kHz. The line shape varies weakly as function of magnetic field and temperature but has a strong orientation dependence. The nuclear electric quadrupole splitting is unresolved implying that the electric field gradients are 10-100 times smaller than in other non-cubic crystals. The nuclear spin relaxation rate is also anomalously small but varies linearly with temperature as expected for Korringa relaxation in a metal. These results suggest that Li adopts an interstitial position between the weakly coupled NbSe2 layers and away from the conduction band. (c) 2005 Elsevier B.V. All rights reserved.

Published

2016

5. Early Li-8+beta-NMR investigations in GaAs and Ge

Author

Chow, KH, Salman, Z, MacFarlane, WA, Campbell, B, Keeler, TA, Kiefl, RF, Kreitzman, SR, Levy, CDP, Morris, GD, Parolin, TJ, Daviel, S, and Yamani, Z

Abstract

In this paper, we describe initial studies of the structure and dynamics associated with Li-8(+) in bulk crystalline GaAs and Ge. At low temperatures in GaAs, the amplitude of the Li-8(+) resonance signal at approximate to 3 T indicates that a large fraction (at least 70%) of the Li end up in locations with cubic symmetry (i.e. the tetrahedral interstitial and substitutional sites). The linewidth of the beta-NMR Li-8(+) resonance increases dramatically above 150 K, reaches a maximum at about 290 K, and decreases again. This suggests that the Li starts to change its location, probably from an interstitial to a substitutional site, at approximate to 150 K. Experiments in Ge are also described. In this sample, a narrow resonance is seen at low temperatures that is likely due to Li located at an interstitial site. Near room temperature, it appears that Li is converting to another site. (c) 2005 Elsevier B.V. All rights reserved.

Published

2016

6. beta-NMR of Palladium foil

Author

Parolin, TJ, Salman, Z, Chakhalian, J, Wang, D, Keeler, TA, Hossain, M, Kiefl, RF, Chow, KH, Morris, GD, Miller, RI, and MacFarlane, WA

Abstract

Beta-detected NMR (beta-NMR) of low-energy implanted Li-8(+) was studied in metallic palladium. The resonance was found to have a large negative shift with respect to the reference signal in the cubic insulator MgO. This shift exhibited significant temperature dependence on cooling below room temperature, approximately proportionate to the temperature-dependent spin susceptibility of pure Pd. Thus it is tentatively attributed to a Knight shift (K) caused by a large negative hyperfine coupling; a phenomenon common in transition metal ions, but not in alkalis. However, the spin-lattice relaxation of Li-8 is much slower than expected from the Korringa law for such a large K. We compare results from samples of very different thicknesses: 12.5 mu m foil and a 100 nm thin film. (c) 2005 Elsevier B.V. All rights reserved.

Published

2016

7. Li-8 in GaAs studied with beta-NMR

Author

Dunlop, T, Mansour, AI, Salman, Z, Chow, KH, Fan, I, Jung, J, Kiefl, RF, Kreitman, SR, Levy, CDP, MacFarlane, WA, Morris, GD, and Parolin, TJ

Abstract

beta-NMR has been used to study isolated spin polarized Li-8(+) in bulk crystalline GaAs. At low temperatures a large fraction (at least 70%) of the Li end up in locations with cubic symmetry (e.g. a tetrahedral interstitial site). The linewidth of the beta-NMR Li-8(+) resonance increases dramatically above 150K, and reaches a maximum at about 290K. These results are consistent with a site change from an interstitial to a substitutional beginning at approximate to 150 K. The field dependence of the linewidth at 100 K is also discussed. (C) 2007 Elsevier B.V. All rights reserved.

Published

2016

8. Generation of slow positive muons from solid rare-gas moderators

Author

J. L. Beveridge, D. R. Harshman, Morris Gd, Rupaal As, Turner Jh, J. B. Warren, K. R. Kendall, Masayoshi Senba, and Allen P. Mills

Subjects

Physics, Neon, Argon, Muon, Xenon, chemistry, Physics::Instrumentation and Detectors, Antimatter, Krypton, chemistry.chemical_element, Atomic physics, Spectral line, Lepton

Abstract

We observe the emission of slow positive muons (..mu../sup +/) from solid neon, argon, krypton, and xenon moderators exposed to a 4.2-MeV incident ..mu../sup +/ beam. The time-of-flight spectra for all of the targets studied exhibit a narrow distribution with no delayed component. Energy spectra obtained from the time-of-flight data indicate a maximum below approx.10 eV with a tail extending to higher energies. The data suggest a slowly thermalizing muon emission mechanism, implying a long diffusion length for low-energy ..mu../sup +/ in these solids. Of the targets measured, argon was observed to produce the highest yield (approx.10/sup -5/ slow ..mu../sup +/ per incident ..mu../sup +/), providing a useful flux for further experimentation.

Published

1987

9. Depth-resolved characterization of Meissner screening breakdown in surface treated niobium.

Author

Thoeng E, Asaduzzaman M, Kolb P, McFadden RML, Morris GD, Ticknor JO, Dunsiger SR, Karner VL, Fujimoto D, Junginger T, Kiefl RF, MacFarlane WA, Li R, Saminathan S, and Laxdal RE

Abstract

We report direct measurements of the magnetic field screening at the limits of the Meissner phase for two superconducting niobium (Nb) samples. The samples are processed with two different surface treatments that have been developed for superconducting radio-frequency (SRF) cavity applications-a "baseline" treatment and an oxygen-doping ("O-doping") treatment. The measurements show: (1) that the screening length is significantly longer in the "O-doping" sample compared to the "baseline" sample; (2) that the screening length near the limits of the Meissner phase increases with applied field; (3) the evolution of the screening profile as the material transitions from the Meissner phase to the mixed phase; and (4) a demonstration of the absence of any screening profile for the highest applied field, indicative of the full flux entering the sample. Measurements are performed utilizing the β -detected nuclear magnetic resonance ( β -NMR) technique that allows depth resolved studies of the local magnetic field within the first 100 nm of the surface. The study takes advantage of the β -SRF beamline, a new facility at TRIUMF, Canada, where field levels up to 200 mT are available parallel to the sample surface to replicate radio frequency fields near the Meissner breakdown limits of Nb., (© 2024. The Author(s).)

Published

2024

10. A new high parallel-field spectrometer at TRIUMF's β-NMR facility.

Author

Thoeng E, McFadden RML, Saminathan S, Morris GD, Kolb P, Matheson B, Asaduzzaman M, Baartman R, Dunsiger SR, Fujimoto D, Junginger T, Karner VL, Kiy S, Li R, Stachura M, Ticknor JO, Kiefl RF, MacFarlane WA, and Laxdal RE

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, and 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.

Published

2023

11. Urinary Ascites: An Imitator of Portal Hypertension-Related Ascites.

Author

Zhuang TZ, Akhnoukh SB, Morris GD, and Krakow DA

Abstract

Urinary ascites is a rare and lesser-known etiology of ascites that may mimic portal hypertension (pHTN). We present an unusual case of urinary ascites in a patient with no apparent risk factors for bladder rupture. A 56-year-old woman with an uncomplicated, remote history of abdominal surgery presented with recurring episodes of ascites of unknown etiology. Of note, she has a history of functional, chronic urinary retention due to paruresis, a phobia of public urination. She had abdominal distension on the exam. Paracentesis revealed an elevated serum-ascites albumin gradient (SAAG), concerning portal hypertension. Additionally, the ascites creatinine to serum creatinine ratio was found to be extremely elevated at over 1, and a CT cystogram ultimately revealed bladder rupture, indicating a source of urinary leakage into the peritoneal space. This case report discusses the clinical recognition of urinary ascites as a mimic of apparent portal hypertension-related ascites and appropriate management., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2022, Zhuang et al.)

Published

2022

12. Magnesium(II)-ATP Complexes in 1-Ethyl-3-Methylimidazolium Acetate Solutions Characterized by 31 Mg β-Radiation-Detected NMR Spectroscopy.

Author

McFadden RML, Szunyogh D, Bravo-Frank N, Chatzichristos A, Dehn MH, Fujimoto D, Jancsó A, Johannsen S, Kálomista I, Karner VL, Kiefl RF, Larsen FH, Lassen J, Levy CDP, Li R, McKenzie I, McPhee H, Morris GD, Pearson MR, Sauer SPA, Sigel RKO, Thulstrup PW, MacFarlane WA, Hemmingsen L, and Stachura M

Subjects

Imidazoles, Magnetic Resonance Spectroscopy methods, Adenosine Triphosphate chemistry, Magnesium

Abstract

The complexation of Mg II with adenosine 5'-triphosphate (ATP) is omnipresent in biochemical energy conversion, but is difficult to interrogate directly. Here we use the spin- 1 / 2 β-emitter 31 Mg to study Mg II -ATP complexation in 1-ethyl-3-methylimidazolium acetate (EMIM-Ac) solutions using β-radiation-detected nuclear magnetic resonance (β-NMR). We demonstrate that (nuclear) spin-polarized 31 Mg, following ion-implantation from an accelerator beamline into EMIM-Ac, binds to ATP within its radioactive lifetime before depolarizing. The evolution of the spectra with solute concentration indicates that the implanted 31 Mg initially bind to the solvent acetate anions, whereafter they undergo dynamic exchange and form either a mono- ( 31 Mg-ATP) or di-nuclear ( 31 MgMg-ATP) complex. The chemical shift of 31 Mg-ATP is observed up-field of 31 MgMg-ATP, in accord with quantum chemical calculations. These observations constitute a crucial advance towards using β-NMR to probe chemistry and biochemistry in solution., (© 2022 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2022

13. A β-NMR study of the depth, temperature, and molecular-weight dependence of secondary dynamics in polystyrene: Entropy-enthalpy compensation and dynamic gradients near the free surface.

Author

McKenzie I, Fujimoto D, Karner VL, Li R, MacFarlane WA, McFadden RML, Morris GD, Pearson MR, Raegen AN, Stachura M, Ticknor JO, and Forrest JA

Abstract

We investigated the depth, temperature, and molecular-weight (MW) dependence of the γ-relaxation in polystyrene glasses using implanted 8 Li + and β-detected nuclear magnetic resonance. Measurements were performed on thin films with MW ranging from 1.1 to 641 kg/mol. The temperature dependence of the average 8 Li spin-lattice relaxation time (T 1 avg ) was measured near the free surface and in the bulk. Spin-lattice relaxation is caused by phenyl ring flips, which involve transitions between local minima over free-energy barriers with enthalpic and entropic contributions. We used transition state theory to model the temperature dependence of the γ-relaxation, and hence T 1 avg . There is no clear correlation of the average entropy of activation (Δ ‡ S̄) and enthalpy of activation (Δ ‡ H̄) with MW, but there is a clear correlation between Δ ‡ S̄ and Δ ‡ H̄, i.e., entropy-enthalpy compensation. This results in the average Gibbs energy of activation, Δ ‡ Ḡ, being approximately independent of MW. Measurements of the temperature dependence of T 1 avg as a function of depth below the free surface indicate the inherent entropic barrier, i.e., the entropy of activation corresponding to Δ ‡ H̄ = 0, has an exponential dependence on the distance from the free surface before reaching the bulk value. This results in Δ ‡ Ḡ near the free surface being lower than the bulk. Combining these observations results in a model where the average fluctuation rate of the γ-relaxation has a "double-exponential" depth dependence. This model can explain the depth dependence of 1/T 1 avg in polystyrene films. The characteristic length of enhanced dynamics is ∼6 nm and approximately independent of MW near room temperature.

Published

2022

14. Local Electronic Structure and Dynamics of Muon-Polaron Complexes in Fe_{2}O_{3}.

Author

Dehn MH, Shenton JK, Arseneau DJ, MacFarlane WA, Morris GD, Maigné A, Spaldin NA, and Kiefl RF

Abstract

We perform detailed muon spin rotation (μSR) measurements in the classic antiferromagnet Fe_{2}O_{3} and explain the spectra by considering dynamic population and dissociation of charge-neutral muon-polaron complexes. We show that charge-neutral muon states in Fe_{2}O_{3}, 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 Fe_{2}O_{3} suggests that isolated hydrogen (H) impurities form analogous complexes, and that H interstitials may be a source of charge carrier density in Fe_{2}O_{3}.

Published

2021

15. Investigation of ionic and anomalous magnetic behavior in CrSe 2 using 8 Li β-NMR.

Author

Ticknor JO, Umegaki I, McFadden RML, Chatzichristos A, Fujimoto D, Karner VL, Kiefl RF, Kobayashi S, Levy CDP, Li R, Morris GD, Pearson MR, Yoshimura K, Sugiyama J, and MacFarlane WA

Abstract

We have studied a mosaic of 1T-CrSe 2 single crystals using β-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 exhibits a broad minimum with an anomalous 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., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2020

16. Bi-Arrhenius Diffusion and Surface Trapping of ^{8}Li^{+} in Rutile TiO_{2}.

Author

Chatzichristos A, McFadden RML, Dehn MH, Dunsiger SR, Fujimoto D, Karner VL, McKenzie I, Morris GD, Pearson MR, Stachura M, Sugiyama J, Ticknor JO, MacFarlane WA, and Kiefl RF

Abstract

We report measurements of the diffusion rate of isolated ion-implanted ^{8}Li^{+} within ∼120  nm of the surface of oriented single-crystal rutile TiO_{2} using a radiotracer technique. The α particles from the ^{8}Li decay provide a sensitive monitor of the distance from the surface and how the depth profile of ^{8}Li evolves with time. The main findings are that the implanted Li^{+} diffuses and traps at the (001) surface. The T dependence of the diffusivity is described by a bi-Arrhenius expression with activation energies of 0.3341(21) eV above 200 K, whereas at lower temperatures it has a much smaller barrier of 0.0313(15) eV. We consider possible origins for the surface trapping, as well the nature of the low-T barrier.

Published

2019

17. Direct observation of Mg 2+ complexes in ionic liquid solutions by 31 Mg β-NMR spectroscopy.

Author

Szunyogh D, McFadden RML, Karner VL, Chatzichristos A, Day Goodacre T, Dehn MH, Formenti L, Fujimoto D, Gottberg A, Kallenberg E, Kálomista I, Kiefl RF, Larsen FH, Lassen J, Levy CDP, Li R, MacFarlane WA, McKenzie I, Morris GD, Pallada S, Pearson MR, Sauer SPA, Schaffer P, Thulstrup PW, Hemmingsen L, and Stachura M

Abstract

NMR spectra of Mg2+ ions in ionic liquids were recorded using a highly sensitive variant of NMR spectroscopy known as β-NMR. The β-NMR spectra of MgCl2 in EMIM-Ac and EMIM-DCA compare favourably with conventional NMR, and exhibit linewidths of ∼3 ppm, allowing for discrimination of species with oxygen and nitrogen coordination.

Published

2018

18. Direct measurements of the temperature, depth and processing dependence of phenyl ring dynamics in polystyrene thin films by β-detected NMR.

Author

McKenzie I, Chai Y, Cortie DL, Forrest JA, Fujimoto D, Karner VL, Kiefl RF, Levy CDP, MacFarlane WA, McFadden RML, Morris GD, Pearson MR, and Zhu S

Abstract

There is indirect evidence that the dynamics of a polymer near a free surface are enhanced compared with the bulk but there are few studies of how dynamics varies with depth. β-Detected nuclear spin relaxation of implanted 8Li+ has been used to directly probe the temperature and depth dependence of the γ-relaxation mode, which is due to phenyl rings undergoing restricted rotation, in thin films of atactic deuterated polystyrene (PS-d8) and determine how the depth dependence of dynamics is affected by sample processing, such as annealing, floating on water and the inclusion of a surfactant, and by the presence of a buried interface. The activation energy for the γ-relaxation process is lower near the free surface. Annealing the PS-d8 films and then immersing in water to mimic the floating procedure used to transfer films had negligible effects on the thickness of the region near the free surface with enhanced mobility. Measurements on a bilayer film indicate enhanced phenyl ring dynamics near the buried interface compared with a single film at the same depth. PS-d8 films annealed with the surfactant sodium dodecyl sulfate (SDS) deposited on the surface show enhanced dynamics in the bulk compared with a pure PS-d8 film and a PS-d8 film where the SDS was washed away. There is less contrast between the surface and bulk in the SDS-treated sample, which could account for the elimination of the Tg confinement effect observed in films containing SDS [Chen and Torkelson, Polymer, 2016, 87, 226].

Published

2018

19. Discovery of slow magnetic fluctuations and critical slowing down in the pseudogap phase of YBa 2 Cu 3 O y .

Author

Zhang J, Ding Z, Tan C, Huang K, Bernal OO, Ho PC, Morris GD, Hillier AD, Biswas PK, Cottrell SP, Xiang H, Yao X, MacLaughlin DE, and Shu L

Abstract

The origin of the pseudogap region below a temperature T * is at the heart of the mysteries of cuprate high-temperature superconductors. Unusual properties of the pseudogap phase, such as broken time-reversal and inversion symmetry are observed in several symmetry-sensitive experiments: polarized neutron diffraction, optical birefringence, dichroic angle-resolved photoemission spectroscopy, second harmonic generation, and polar Kerr effect. These properties suggest that the pseudogap region is a genuine thermodynamic phase and are predicted by theories invoking ordered loop currents or other forms of intra-unit-cell (IUC) magnetic order. However, muon spin rotation (μSR) and nuclear magnetic resonance (NMR) experiments do not see the static local fields expected for magnetic order, leaving room for skepticism. The magnetic resonance probes have much longer time scales, however, over which local fields could be averaged by fluctuations. The observable effect of the fluctuations in magnetic resonance is then dynamic relaxation. We have measured dynamic muon spin relaxation rates in single crystals of YBa 2 Cu 3 O y (6.72 < y < 6.95) and have discovered "slow" fluctuating magnetic fields with magnitudes and fluctuation rates of the expected orders of magnitude that set in consistently at temperatures T mag ≈ T *. The absence of any static field (to which μSR would be linearly sensitive) is consistent with the finite correlation length from neutron diffraction. Equally important, these fluctuations exhibit the critical slowing down at T mag expected near a time-reversal symmetry breaking transition. Our results explain the absence of static magnetism and provide support for the existence of IUC magnetic order in the pseudogap phase.

Published

2018

20. β-NMR measurements of molecular-scale lithium-ion dynamics in poly(ethylene oxide)-lithium-salt thin films.

Author

McKenzie I, Cortie DL, Harada M, Kiefl RF, Levy CDP, MacFarlane WA, McFadden RML, Morris GD, Ogata SI, Pearson MR, and Sugiyama J

Abstract

β-detected NMR (β-NMR) has been used to study the molecular-scale dynamics of lithium ions in thin films of poly(ethylene oxide) (PEO) containing either lithium bis(trifluoromethanesulfonyl)imide (LiTFSI) or lithium trifluoroacetate (LiTFA) salts at monomer-to-salt ratios (EO/Li) of 8.3. The results are compared with previous β-NMR measurements on pure PEO and PEO with lithium triflate (LiOTf) at the same loading [McKenzie et al., J. Am. Chem. Soc. 136, 7833 (2014)]. Activated hopping of 8 Li + was observed in all of the films above ∼250 K, with the hopping parameters strongly correlated with the ionicity of the lithium salt rather than the polymer glass transition temperature. The pre-exponential factor increases exponentially with ionicity, while the activation energy for hopping increases approximately linearly, going from 6.3±0.2 kJ mol -1 in PEO:LiTFA to 17.8±0.2 kJ mol -1 in PEO:LiTFSI. The more rapid increase in the pre-exponential factor outweighs the effect of the larger activation energy and results in 8 Li + hopping being fastest in PEO followed by PEO:LiTFSI, PEO:LiOTf, and PEO:LiTFA.

Published

2017

21. β-NMR Investigation of the Depth-Dependent Magnetic Properties of an Antiferromagnetic Surface.

Author

Cortie DL, Buck T, Dehn MH, Karner VL, Kiefl RF, Levy CD, McFadden RM, Morris GD, McKenzie I, Pearson MR, Wang XL, and MacFarlane WA

Abstract

By measuring the prototypical antiferromagnet α-Fe&#95;{2}O&#95;{3}, we show that it is possible to determine the static spin orientation and dynamic spin correlations within nanometers from an antiferromagnetic surface using the nuclear spin polarization of implanted ^{8}Li^{+} ions detected with β-NMR. Remarkably, the first-order Morin spin reorientation in single crystal α-Fe&#95;{2}O&#95;{3} occurs at the same temperature at all depths between 1 and 100 nm from the (110) surface; however, the implanted nuclear spin experiences an increased 1/T&#95;{1} relaxation rate at shallow depths revealing soft-surface magnons. The surface-localized dynamics decay towards the bulk with a characteristic length of ε=11±1  nm, closely matching the finite-size thresholds of hematite nanostructures.

Published

2016

22. Nanoscale β-nuclear magnetic resonance depth imaging of topological insulators.

Author

Koumoulis D, Morris GD, He L, Kou X, King D, Wang D, Hossain MD, Wang KL, Fiete GA, Kanatzidis MG, and Bouchard LS

Abstract

Considerable evidence suggests that variations in the properties of topological insulators (TIs) at the nanoscale and at interfaces can strongly affect the physics of topological materials. Therefore, a detailed understanding of surface states and interface coupling is crucial to the search for and applications of new topological phases of matter. Currently, no methods can provide depth profiling near surfaces or at interfaces of topologically inequivalent materials. Such a method could advance the study of interactions. Herein, we present a noninvasive depth-profiling technique based on β-detected NMR (β-NMR) spectroscopy of radioactive (8)Li(+) ions that can provide "one-dimensional imaging" in films of fixed thickness and generates nanoscale views of the electronic wavefunctions and magnetic order at topological surfaces and interfaces. By mapping the (8)Li nuclear resonance near the surface and 10-nm deep into the bulk of pure and Cr-doped bismuth antimony telluride films, we provide signatures related to the TI properties and their topological nontrivial characteristics that affect the electron-nuclear hyperfine field, the metallic shift, and magnetic order. These nanoscale variations in β-NMR parameters reflect the unconventional properties of the topological materials under study, and understanding the role of heterogeneities is expected to lead to the discovery of novel phenomena involving quantum materials.

Published

2015

23. Enhanced high-frequency molecular dynamics in the near-surface region of polystyrene thin films observed with β-NMR.

Author

McKenzie I, Daley CR, Kiefl RF, Levy CD, MacFarlane WA, Morris GD, Pearson MR, Wang D, and Forrest JA

Abstract

β-detected nuclear spin relaxation of (8)Li(+) has been used to probe the depth dependence of molecular dynamics in high- and low-molecular-weight deuterated polystyrene. The average nuclear spin-lattice relaxation rate, 1/T(avg)(1), is a measure of the spectral density of the polymer motion at the Larmor frequency (41 MHz at 6.55 T). In both samples, 1/T(avg)(1) is depth independent below ∼200 K but above this temperature it decreases approximately exponentially with distance from the free surface, returning to bulk behavior for depths greater than ∼10 nm. This is direct evidence for a region near the free surface with enhanced molecular dynamics compared with the bulk. The effective thickness of the surface region increases with increasing temperature and is finite even above the glass transition. These results present challenges for the current understanding of dynamics near the surface of polymer glasses.

Published

2015

24. β-NMR measurements of lithium ion transport in thin films of pure and lithium-salt-doped poly(ethylene oxide).

Author

McKenzie I, Harada M, Kiefl RF, Levy CD, MacFarlane WA, Morris GD, Ogata S, Pearson MR, and Sugiyama J

Abstract

β-Detected nuclear spin relaxation of (8)Li(+) has been used to study the microscopic diffusion of lithium ions in thin films of poly(ethylene oxide) (PEO), where the implanted lithium ions are present in extremely low concentration, and PEO with 30 wt % LiCF3SO3 over a wide range of temperatures both above and below the glass transition temperature. Recent measurements by Do et al. [Phys. Rev. Lett. 2013, 111, 018301] found that the temperature dependence of the Li(+) conductivity was identical to that of the dielectric α relaxation and was well described by the Vogel-Fulcher-Tammann relation, implying the α relaxation dominates the Li(+) transport process. In contrast, we find the hopping of Li(+) in both samples in the high temperature viscoelastic phase follows an Arrhenius law and depends significantly on the salt content. We propose that the hopping of Li(+) between cages involves motion of the polymer but that it is only for long-range diffusion where the α relaxation plays an important role.

Published

2014

25. A model for the stability of films stabilized by randomly packed spherical particles.

Author

Morris GD, Neethling SJ, and Cilliers JJ

Abstract

Particle stabilized thin films occur in a range of industrial applications where their properties affect the efficiency of the process concerned. However, due to their dynamic and unstable nature they are difficult to observe experimentally. As such, a tractable way of gaining insight into the fundamental aspects of this complicated system is to use computer simulations of particles at interfaces. This paper presents modeling results of the effect of nonuniform packing of spherical particles on the stability of thin liquid films. Surface Evolver was used to model cells containing up to 20 particles, randomly packed in a thin liquid film. The capillary pressure required to rupture the film for a specific combination of particle arrangement, packing density, and contact angle was identified. The data from the periodic, randomly packed models has been used to find a relationship between particle packing density, contact angle, and critical capillary pressure which is refined to a simple equation that depends on the film loading and contact angle of the particles it contains. The critical capillary pressure for film rupture obeys the same trends observed for particles in regular 2D and 3D packing arrangements. The absolute values of P*(crit), however, are consistently lower than those for regular packing. This is due to the irregular arrangement of the particles, which allows for larger areas of free film to exist, lowering the critical capillary pressure required to rupture the film., (© 2011 American Chemical Society)

Published

2011

26. Li(Zn,Mn)As as a new generation ferromagnet based on a I-II-V semiconductor.

Author

Deng Z, Jin CQ, Liu QQ, Wang XC, Zhu JL, Feng SM, Chen LC, Yu RC, Arguello C, Goko T, Ning F, Zhang J, Wang Y, Aczel AA, Munsie T, Williams TJ, Luke GM, Kakeshita T, Uchida S, Higemoto W, Ito TU, Gu B, Maekawa S, Morris GD, and Uemura YJ

Abstract

In a prototypical ferromagnet (Ga,Mn)As based on a III-V semiconductor, substitution of divalent Mn atoms into trivalent Ga sites leads to severely limited chemical solubility and metastable specimens available only as thin films. The doping of hole carriers via (Ga,Mn) substitution also prohibits electron doping. To overcome these difficulties, Masek et al. theoretically proposed systems based on a I-II-V semiconductor LiZnAs, where isovalent (Zn,Mn) substitution is decoupled from carrier doping with excess/deficient Li concentrations. Here we show successful synthesis of Li(1+y)(Zn(1-x)Mn(x))As in bulk materials. Ferromagnetism with a critical temperature of up to 50 K is observed in nominally Li-excess (y=0.05-0.2) compounds with Mn concentrations of x=0.02-0.15, which have p-type metallic carriers. This is presumably due to excess Li in substitutional Zn sites. Semiconducting LiZnAs, ferromagnetic Li(Zn,Mn)As, antiferromagnetic LiMnAs, and superconducting LiFeAs systems share square lattice As layers, which may enable development of novel junction devices in the future.

Published

2011

27. Proximal magnetometry in thin films using betaNMR.

Author

Xu M, Hossain MD, Saadaoui H, Parolin TJ, Chow KH, Keeler TA, Kiefl RF, Morris GD, Salman Z, Song Q, Wang D, and MacFarlane WA

Subjects

Computer Simulation, Radiation Dosage, Algorithms, Magnetic Resonance Spectroscopy methods, Magnetics, Membranes, Artificial, Models, Chemical, Radiometry methods

Abstract

Low energy ion implantation of hyperpolarized radioactive magnetic resonance probes allows the NMR study of thin film heterostructures by enabling depth-resolved measurements on a nanometer lengthscale. By stopping the probe ions in a layer adjacent to a layer of interest, it is possible to study magnetic fields proximally. Here we show that, in the simplest case of a uniformly magnetized layer, this yields an unperturbed in situ frequency reference. We also discuss demagnetization contributions to measured shifts for this case. With a simple illustrative calculation, we show how a nonuniformly magnetized layer causes a strongly depth-dependent line broadening in an adjacent layer. We then give some experimental examples of resonance line broadening in heterostructures.

Published

2008

28. Local magnetic properties of a monolayer of Mn12 single molecule magnets.

Author

Salman Z, Chow KH, Miller RI, Morello A, Parolin TJ, Hossain MD, Keeler TA, Levy CD, MacFarlane WA, Morris GD, Saadaoui H, Wang D, Sessoli R, Condorelli GG, and Kiefl RF

Subjects

Computer Simulation, Computer-Aided Design, Equipment Design, Equipment Failure Analysis, Materials Testing, Nanostructures ultrastructure, Nanotechnology methods, Crystallization methods, Magnetics instrumentation, Manganese chemistry, Models, Chemical, Models, Molecular, Nanostructures chemistry, Nanotechnology instrumentation

Abstract

The magnetic properties of a monolayer of Mn12 single molecule magnets grafted onto a silicon (Si) substrate have been investigated using depth-controlled beta-detected nuclear magnetic resonance. A low-energy beam of spin-polarized radioactive 8Li was used to probe the local static magnetic field distribution near the Mn12 monolayer in the Si substrate. The resonance line width varies strongly as a function of implantation depth as a result of the magnetic dipolar fields generated by the Mn12 electronic magnetic moments. The temperature dependence of the line width indicates that the magnetic properties of the Mn12 moments in this low-dimensional configuration differ from bulk Mn12.

Published

2007

29. Magnetic-field effects on the size of vortices below the surface of NbSe2 detected using low energy beta-NMR.

Author

Salman Z, Wang D, Chow KH, Hossain MD, Kreitzman SR, Keeler TA, Levy CD, MacFarlane WA, Miller RI, Morris GD, Parolin TJ, Saadaoui H, Smadella M, and Kiefl RF

Abstract

A low energy radioactive beam of polarized 8Li has been used to observe the vortex lattice near the surface of superconducting NbSe2. The inhomogeneous magnetic-field distribution associated with the vortex lattice was measured using depth-resolved beta-detected NMR. Below Tc, one observes the characteristic line shape for a triangular vortex lattice which depends on the magnetic penetration depth and vortex core radius. The size of the vortex core varies strongly with the magnetic field. In particular, in a low field of 10.8 mT, the core radius is much larger than the coherence length. The possible origin of these giant vortices is discussed.

Published

2007

30. beta-NMR of isolated lithium in nearly ferromagnetic palladium.

Author

Parolin TJ, Salman Z, Chakhalian J, Song Q, Chow KH, Hossain MD, Keeler TA, Kiefl RF, Kreitzman SR, Levy CD, Miller RI, Morris GD, Pearson MR, Saadaoui H, Wang D, and MacFarlane WA

Abstract

The temperature dependence of the frequency shift and spin-lattice relaxation rate of isolated, nonmagnetic (8)Li impurities implanted in a nearly ferromagnetic host (Pd) are measured by means of beta-detected nuclear magnetic resonance (beta-NMR). The shift is negative, very large, and increases monotonically with decreasing T in proportion to the bulk susceptibility of Pd for T > T* approximately 100 K. Below T*, an additional shift occurs which we attribute to the response of Pd to the defect. The relaxation rate is much slower than expected for the large shift and is linear with T below T*, showing no sign of additional relaxation mechanisms associated with the defect.

Published

2007

31. Evidence of two dimensionality in quasi-one-dimensional cobalt oxides.

Author

Sugiyama J, Nozaki H, Ikedo Y, Mukai K, Andreica D, Amato A, Brewer JH, Ansaldo EJ, Morris GD, Takami T, and Ikuta H

Abstract

The quasi-one-dimensional (Q1D) cobalt oxides A(N + 2)Co(n + 1)O(3n + 3) (A = Ca, Sr, and Ba, n = 1 - infinity) were investigated by muon-spin spectroscopy under applied pressures of up to 1.1 GPa. The relationship between the onset Néel temperature T(on)(N) and the interchain distance (d(ic)), which increases monotonically with n, is well fitted by the formula T(N)/T(N,0) = (1 - d(ic)/d(ic,o)(beta), here for T(on)(N) approximately 100 K for Ca(3)Co(2)O(6) (n = 1) and approximately 15 for BaCoCoO(3) (n = infinity at ambient P. The T(on)(N) - d(ic) curve also predicts a large dependence of Y(N) for the compounds with n > or = 5, i.e., in the vicinity of , while the compounds show only a very small effect. Indeed, our high-pressure mu(+) results show that of BaCoO(3) is enhanced by with a slope of 2.2 K(Gpa), whereas no detectable changes by P for both Ca(3)Co(2)O(6) and Sr(4)Co(3)O(9) (n = 2). This clearly confirms the role of the 2D-antiferromagnetic interaction on T(on)(N) in the Q1D cobalt oxides.

Published

2006

32. Static magnetic order in metallic K0.49CoO2.

Author

Sugiyama J, Nozaki H, Ikedo Y, Mukai K, Brewer JH, Ansaldo EJ, Morris GD, Andreica D, Amato A, Fujii T, and Asamitsu A

Abstract

By means of muon-spin spectroscopy, we have found that K0.49CoO2 crystals undergo successive magnetic transitions from a high-T paramagnetic state to a magnetic ordered state below 60 K and then to a second ordered state below 16 K, even though K0.49CoO2 is metallic at least down to 4 K. An isotropic magnetic behavior and wide internal-field distributions suggest the formation of a commensurate helical spin density wave (SDW) state below 16 K, while a linear SDW state is likely to exist above 16 K. It was also found that exhibits a further transition at 150 K presumably due to a change in the spin state of the Co ions. Since the dependence of the internal-field below 60 K was similar to that for Na0.5CoO2, this suggests that magnetic order is more strongly affected by the Co valence than by the interlayer distance or interaction and/or the charge ordering.

Published

2006

33. Depth-controlled beta-NMR of 8Li in a thin silver film.

Author

Morris GD, Macfarlane WA, Chow KH, Salman Z, Arseneau DJ, Daviel S, Hatakeyama A, Kreitzman SR, Levy CD, Poutissou R, Heffner RH, Elenewski JE, Greene LH, and Kiefl RF

Abstract

Depth-controlled beta-NMR can be used to probe the magnetic properties of thin films and interfaces on a nanometer length scale. A 30 keV beam of highly spin-polarized 8Li+ ions was slowed down and implanted into a 50 nm film of Ag deposited on a SrTiO3 substrate. A novel high field beta-NMR spectrometer was used to observe two well resolved resonances which are attributed to Li occupying substitutional and octahedral interstitial sites in the Ag lattice. The temperature dependence of the Knight shifts and spin relaxation rates are consistent with the Korringa law for a simple metal, implying that the NMR of implanted 8Li reflects the spin suspectibility of bulk metallic silver.

Published

2004

34. Religious slaughter.

Author

Morris GD

Subjects

Animals, Cultural Characteristics, Poultry, Sheep, Swine, United Kingdom, Abattoirs, Animal Welfare, Meat, Religion

Published

2003

35. Muon spin relaxation and isotropic pairing in superconducting PrOs4Sb12.

Author

MacLaughlin DE, Sonier JE, Heffner RH, Bernal OO, Young BL, Rose MS, Morris GD, Bauer ED, Do TD, and Maple MB

Abstract

Transverse-field muon-spin rotation measurements in the vortex-lattice of the heavy-fermion (HF) superconductor PrOs4Sb12 yield a temperature dependence of the magnetic penetration depth lambda indicative of an isotropic or nearly isotropic energy gap. This is not seen to date in any other HF superconductor and is a signature of isotropic pairing symmetry, possibly related to a novel nonmagnetic "quadrupolar Kondo" HF mechanism in PrOs4Sb12. The T=0 relaxation rate sigma(s)(0)=0.91(1) micros(-1) yields an estimated magnetic penetration depth lambda(0)=3440(20) A, which is considerably shorter than in other HF superconductors.

Published

2002

36. Evidence for static magnetism in the vortex cores of ortho-II YBa2Cu3O6.50.

Author

Miller RI, Kiefl RF, Brewer JH, Sonier JE, Chakhalian J, Dunsiger S, Morris GD, Price AN, Bonn DA, Hardy WH, and Liang R

Abstract

Evidence for static alternating magnetic fields in the vortex cores of underdoped YBa2Cu3O6+x is reported. Muon spin rotation measurements of the internal magnetic field distribution of the vortex state of YBa2Cu3O6.50 in applied fields of H = 1 T and H = 4 T reveal a feature in the high-field tail of the field distribution which is not present in optimally doped YBa2Cu3O6.95 and which fits well to a model with static magnetic fields in the vortex cores. The magnitude of the fields is estimated to be 18(2) G and decreases above T = 10 K. We discuss possible origins of the additional vortex core magnetism within the context of existing theories.

Published

2002

37. Effect of external sequential compression devices on femoral venous blood flow.

Author

Markel DC and Morris GD

Subjects

Aged, Aged, 80 and over, Arthroplasty, Replacement, Knee adverse effects, Equipment and Supplies, Female, Femoral Vein physiopathology, Hemodynamics, Humans, Lower Extremity, Male, Middle Aged, Motor Activity physiology, Treatment Outcome, Venous Thrombosis prevention & control, Arthroplasty, Replacement, Knee rehabilitation, Bandages, Femoral Vein physiology

Abstract

Sequential compression devices are used to reduce venous stasis and deep venous thrombosis after joint replacement. Thigh-length, calf-length, and foot compression devices were compared in using ultrasonography after unilateral knee arthroplasty. Simulated muscle activity via active ankle motion was also evaluated. Blood flow volume and velocity were recorded above and below the saphenous vein bifurcation, the division of the superficial and deep systems, allowing evaluation of each. Volume and velocity increased in the superficial and deep systems with all devices. A control group was evaluated to determine differences related to age and surgery. The devices performed similarly in the volunteers. However, active motion performed better than any device. Thus, unlike young, healthy patients, muscle activity alone in the operative population was unreliable in increasing blood flow. Thigh-length, calf-length, and foot compression devices are are effective at increasing femoral blood flow volume and velocity in the deep and superficial venous systems after total knee arthroplasty.

Published

2002

38. Anomalous weak magnetism in superconducting YBa2Cu3O6+x.

Author

Sonier JE, Brewer JH, Kiefl RF, Miller RI, Morris GD, Stronach CE, Gardner JS, Dunsiger SR, Bonn DA, Hardy WN, Liang R, and Heffner RH

Abstract

For some time now, there has been considerable experimental and theoretical effort to understand the role of the normal-state "pseudogap" phase in underdoped high-temperature cuprate superconductors. Recent debate has centered on the question of whether the pseudogap is independent of superconductivity. We provide evidence from zero-field muon spin relaxation measurements in YBa2Cu3O6+x for the presence of small spontaneous static magnetic fields of electronic origin intimately related to the pseudogap transition. Our most significant finding is that, for optimal doping, these weak static magnetic fields appear well below the superconducting transition temperature. The two compositions measured suggest the existence of a quantum critical point somewhat above optimal doping.

Published

2001

39. Biomechanics of the ankle joint. A perspective on total ankle replacement.

Author

Deland JT, Morris GD, and Sung IH

Subjects

Biomechanical Phenomena, Fibula physiology, Gait physiology, Humans, Movement, Rotation, Weight-Bearing, Ankle Joint physiology, Ankle Joint surgery, Arthroplasty, Replacement

Abstract

The biomechanics of the ankle present a unique set of challenges for arthroplasty surgery. Its biomechanics are not simple. Although the ankle joint may seem like a hinge, it is not in a line perpendicular to the tibia. The axis of rotation does not stay constant during range of motion, despite a relative congruency of this joint. Allowing for rotational forces must be accomplished, while maintaining the stability of the joint and its components. Success of the arthroplasty depends on how successful designs can dissipate these rotational forces, while maintaining the stability of the joint. It is not yet clear from the biomechanical analysis of the normal ankle joint that this dissipation of forces has been accomplished successfully in modern implants, although early results in the semiconstrained designs are encouraging. Careful assessment of long-term follow-up will determine how close the present designs are to mimicking the unique requirements of the arthritic foot and ankle. Further work on the biomechanics of these replacements would be beneficial.

Published

2000

40. Low temperature limit of the vortex core radius and the kramer-pesch effect in NbSe2

Author

Miller RI, Kiefl RF, Brewer JH, Chakhalian J, Dunsiger S, Morris GD, Sonier JE, and MacFarlane WA

Abstract

Muon spin rotation ( &mgr;SR) has been used to measure the magnetic field distribution in the vortex state of the type-II superconductor NbSe2 ( T(c) = 7.0 K) below T = 2 K. The distribution is consistent with a highly ordered hexagonal vortex lattice with a well resolved high-field cutoff associated with the finite size of the vortex cores. The temperature dependence of the core radius is much weaker than the temperature dependence predicted from the Bogoliubov-de Gennes theory. Furthermore, the vortex radius measured by &mgr;SR near the low temperature quantum limit is about an order of magnitude larger than predicted.

Published

2000

41. Electron localization in a disordered insulating host

Author

Storchak VG, Eshchenko DG, Brewer JH, Morris GD, Cottrell SP, and Cox SF

Abstract

Transport of excess electrons has been studied in solid N2-Ar mixtures between 5 and 60 K using muon spin rotation in magnetic and electric fields. At low temperatures, orientational frustration of N2 molecular quadrupoles by a sufficiently high concentration of Ar atoms leads to formation of a quadrupolar glass phase in which electrons are found to be strongly localized. This feature is in marked contrast to the electron delocalization observed in the low-temperature alpha phase of pure solid nitrogen, which shows long-range orientational order.

Published

2000

42. Inhomogeneous quantum diffusion.

Author

Storchak V V, Brewer JH, and Morris GD

Published

1996

43. Fast and slow electrons in liquid neon.

Author

Storchak V V, Brewer JH, and Morris GD

Published

1996

44. Muonium localization in solid krypton.

Author

Storchak V V, Cox SF, Cottrell SP, Brewer JH, Morris GD, and Prokof'ev NV

Published

1996

45. Ginzburg-Landau parameter in YBa2Cu3O6.95 below the irreversibility temperature as measured by micro+SR in high magnetic fields.

Author

Riseman TM, Brewer JH, Chow KH, Hardy WN, Kiefl RF, Kreitzman SR, Liang R, MacFarlane WA, Mendels P, Morris GD, Rammer J, Schneider JW, Niedermayer C, and Lee SL

Published

1995

46. Electron delocalization in alpha -nitrogen.

Author

Storchak V V, Brewer JH, and Morris GD

Published

1995

47. Two-phonon quantum diffusion of muonium in solid nitrogen.

Author

Storchak V V, Brewer JH, Hardy WN, Kreitzman SR, and Morris GD

Published

1994

48. Muon-spin-rotation study of the effect of Zn substitution on magnetism in YBa2Cu3Ox.

Author

Mendels P, Alloul H, Brewer JH, Morris GD, Duty TL, Johnston S, Ansaldo EJ, Collin G, Marucco JF, Niedermayer C, Noakes DR, and Stronach CE

Published

1994

49. New muon-spin-rotation measurement of the temperature dependence of the magnetic penetration depth in YBa2Cu3O6.95.

Author

Sonier JE, Kiefl RF, Brewer JH, Bonn DA, Carolan JF, Chow KH, Dosanjh P, Hardy WN, Liang R, MacFarlane WA, Mendels P, Morris GD, Riseman TM, and Schneider JW

Published

1994

50. Microwave determination of the quasiparticle scattering time in YBa2Cu3O6.95.

Author

Bonn DA, Liang R, Riseman TM, Baar DJ, Morgan DC, Zhang K, Dosanjh P, Duty TL, MacFarlane A, Morris GD, Brewer JH, Hardy WN, Kallin C, and Berlinsky AJ

Published

1993