1,664 research outputs found
Temperature dependent nucleation and propagation of domain walls in a sub-100 nm perpendicularly magnetized Co/Ni multilayer
We present a study of the temperature dependence of the switching fields in
Co/Ni-based perpendicularly magnetized spin-valves. While magnetization
reversal of all-perpendicular Co/Ni spin valves at ambient temperatures is
typically marked by a single sharp step change in resistance, low temperature
measurements can reveal a series of resistance steps, consistent with
non-uniform magnetization configurations. We propose a model that consists of
domain nucleation, propagation and annihilation to explain the temperature
dependence of the switching fields. Interestingly, low temperature (<30 K) step
changes in resistance that we associate with domain nucleation, have a bimodal
switching field and resistance step distribution, attributable to two competing
nucleation pathways.Comment: 5 pages, 4 figure
Characterization of the Intra-Unit-Cell magnetic order in Bi2Sr2CaCu2O8+d
As in YBa2Cu3O6+x and HgBa2CuO8+d, the pseudo-gap state in Bi2Sr2CaCu2O8+d is
characterized by the existence of an intra-unit-cell magnetic order revealed by
polarized neutron scattering technique. We report here a supplementary set of
polarized neutron scattering measurements for which the direction of the
magnetic moment is determined and the magnetic intensity is calibrated in
absolute units. The new data allow a close comparison between bilayer systems
YBa2Cu3O6+x and Bi2Sr2CaCu2O8+d and rise important questions concerning the
range of the magnetic correlations and the role of disorder around optimal
doping.Comment: 12 pages, 8 figures, submitted to physical review
DEFEAT-polypharmacy:deprescribing anticholinergic and sedative medicines feasibility trial in residential aged care facilities
Background Prolonged use of anticholinergic and sedative medicines is correlated with worsening cognition and physical function decline. Deprescribing is a proposed intervention that can help to minimise polypharmacy whilst potentially improving several health outcomes in older people. Objective This study aimed to examine the feasibility of implementing a deprescribing intervention that utilises a patient-centred pharmacist-led intervention model; in order to address major deprescribing challenges such as general practitioner time constraints and lack of accessible deprescribing guidelines and processes. Setting Three residential care facilities. Methods The intervention involved a New Zealand registered pharmacist utilising peer-reviewed deprescribing guidelines to recommend targeted deprescribing of anticholinergic and sedative medicines to GPs. Main outcome measure The change in the participants' Drug Burden Index (DBI) total and DBI 'as required' (PRN) was assessed 3 and 6 months after implementing the deprescribing intervention. Results Seventy percent of potential participants were recruited for the study (n = 46), and 72% of deprescribing recommendations suggested by the pharmacist were implemented by General Pratitioners (p = 0.01; Fisher's exact test). Ninety-six percent of the residents agreed to the deprescribing recommendations, emphasising the importance of patient centred approach. Deprescribing resulted in a significant reduction in participants' DBI scores by 0.34, number of falls and adverse drug reactions, 6 months post deprescribing. Moreover, participants reported lower depression scores and scored lower frailty scores 6 months after deprescribing. However, cognition did not improve; nor did participants' reported quality of life. Conclusion This patient-centred deprescribing approach, demonstrated a high uptake of deprescribing recommendations and success rate. After 6 months, significant benefits were noted across a range of important health measures including mood, frailty, falls and reduced adverse reactions. This further supports deprescribing as a possible imperative to improve health outcomes in older adults.</p
Distortion of the Stoner-Wohlfarth astroid by a spin-polarized current
The Stoner-Wohlfarth astroid is a fundamental object in magnetism. It
separates regions of the magnetic field space with two stable magnetization
equilibria from those with only one stable equilibrium and it characterizes the
magnetization reversal of nano-magnets induced by applied magnetic fields. On
the other hand, it was recently demonstrated that transfer of spin angular
momentum from a spin-polarized current provides an alternative way of switching
the magnetization. Here, we examine the astroid of a nano-magnet with uniaxial
magnetic anisotropy under the combined influence of applied fields and
spin-transfer torques. We find that spin-transfer is most efficient at
modifying the astroid when the external field is applied along the easy-axis of
magnetization. On departing from this situation, a threshold current appears
below which spin-transfer becomes ineffective yielding a current-induced dip in
the astroid along the easy-axis direction. An extension of the Stoner-Wohlfarth
model is outlined which accounts for this phenomenon.Comment: 8 pages, 6 figure
Two types of all-optical magnetization switching mechanisms using femtosecond laser pulses
Magnetization manipulation in the absence of an external magnetic field is a
topic of great interest, since many novel physical phenomena need to be
understood and promising new applications can be imagined. Cutting-edge
experiments have shown the capability to switch the magnetization of magnetic
thin films using ultrashort polarized laser pulses. In 2007, it was first
observed that the magnetization switching for GdFeCo alloy thin films was
helicity-dependent and later helicity-independent switching was also
demonstrated on the same material. Recently, all-optical switching has also
been discovered for a much larger variety of magnetic materials (ferrimagnetic,
ferromagnetic films and granular nanostructures), where the theoretical models
explaining the switching in GdFeCo films do not appear to apply, thus
questioning the uniqueness of the microscopic origin of all-optical switching.
Here, we show that two different all-optical switching mechanisms can be
distinguished; a "single pulse" switching and a "cumulative" switching process
whose rich microscopic origin is discussed. We demonstrate that the latter is a
two-step mechanism; a heat-driven demagnetization followed by a
helicity-dependent remagnetization. This is achieved by an all-electrical and
time-dependent investigation of the all-optical switching in ferrimagnetic and
ferromagnetic Hall crosses via the anomalous Hall effect, enabling to probe the
all-optical switching on different timescales.Comment: 1 page, LaTeX; classified reference number
DEFEAT-polypharmacy:deprescribing anticholinergic and sedative medicines feasibility trial in residential aged care facilities
Background Prolonged use of anticholinergic and sedative medicines is correlated with worsening cognition and physical function decline. Deprescribing is a proposed intervention that can help to minimise polypharmacy whilst potentially improving several health outcomes in older people. Objective This study aimed to examine the feasibility of implementing a deprescribing intervention that utilises a patient-centred pharmacist-led intervention model; in order to address major deprescribing challenges such as general practitioner time constraints and lack of accessible deprescribing guidelines and processes. Setting Three residential care facilities. Methods The intervention involved a New Zealand registered pharmacist utilising peer-reviewed deprescribing guidelines to recommend targeted deprescribing of anticholinergic and sedative medicines to GPs. Main outcome measure The change in the participants' Drug Burden Index (DBI) total and DBI 'as required' (PRN) was assessed 3 and 6 months after implementing the deprescribing intervention. Results Seventy percent of potential participants were recruited for the study (n = 46), and 72% of deprescribing recommendations suggested by the pharmacist were implemented by General Pratitioners (p = 0.01; Fisher's exact test). Ninety-six percent of the residents agreed to the deprescribing recommendations, emphasising the importance of patient centred approach. Deprescribing resulted in a significant reduction in participants' DBI scores by 0.34, number of falls and adverse drug reactions, 6 months post deprescribing. Moreover, participants reported lower depression scores and scored lower frailty scores 6 months after deprescribing. However, cognition did not improve; nor did participants' reported quality of life. Conclusion This patient-centred deprescribing approach, demonstrated a high uptake of deprescribing recommendations and success rate. After 6 months, significant benefits were noted across a range of important health measures including mood, frailty, falls and reduced adverse reactions. This further supports deprescribing as a possible imperative to improve health outcomes in older adults.</p
Temperature dependence of the switching field distributions in all-perpendicular spin-valve nanopillars
We present temperature dependent switching measurements of the Co/Ni
multilayered free element of 75 nm diameter spin-valve nanopillars. Angular
dependent hysteresis measurements as well as switching field measurements taken
at low temperature are in agreement with a model of thermal activation over a
perpendicular anisotropy barrier. However, the statistics of switching (mean
switching field and switching variance) from 20 K up to 400 K are in
disagreement with a N\'{e}el-Brown model that assumes a temperature independent
barrier height and anisotropy field. We introduce a modified N\'{e}el-Brown
model thats fit the experimental data in which we take a dependence
to the barrier height and the anisotropy field due to the temperature dependent
magnetization and anisotropy energy.Comment: 5 pages, 4 figure
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