5,422 research outputs found
Ground state charmed meson spectra for N_f=2+1+1
We present a preliminary study of the charmed meson spectra using the
electrically neutral subset of the new Budapest-Marseille-Wuppertal N_f=2+1+1
gauge configurations that utilise the 3-HEX smeared clover action. The analysis
is performed with a focus on the hyperfine splitting.Comment: 7 pages, 5 figures; presentation given at the 33rd International
Symposium on Lattice Field Theory (Lattice 2015), 14 - 18 July 2015, Kobe,
Japa
Accounting for the costs of recruiting and training
We investigate the investments made by accounting firms into recruiting and training new employees into entry-level positions. This includes developing a model to capture both the direct and indirect investments/ costs associated with recruitment and training. We quantify time, effort, resources, and associated opportunity costs, on entry-level recruits. The model was converted into a quantitative questionnaire and administered to accounting firms. We administered it to twelve accounting firms. The findings from this study build upon earlier studies (Bliss, 2001; Hansen, 1997; Phillips, 1990) which estimated the cost to recruit and train new employees at approximately 150% of their annual salary. Results revealed that the true investment in recruitment and training is significantly greater for the accountants in our study. On average accountants in our study invest an additional 241% of new employees’ annual salary. The findings provide insight into the true financial investments firms make during recruitment and the first year of employee training for entry-level positions. Our model is a simple tool which managers can use to quantify their investments in new employees during their first year of employment. It has proved insightful for accounting firms and has potential for use in other industries. Further, we found that generally new employees do not reach full productivity within their first year of employment. This highlights the importance for employers to retain new employees to maximise their returns on investment
Countering the Norm, (Re)authoring Our Lives: The Promise Counterstorytelling Holds as a Research Methodology With LGBTQ Youth and Beyond
Counterstorytelling, a methodology that is rooted in critical race theory, is undergirded by principles that are beneficial to understanding the experiences of lesbian, gay, bisexual, transgender, and queer-identified (LGBTQ) young people from an intersectional perspective. Counterstorytelling holds promise as a method that creates opportunities for individual transformation and resistance to dominant narratives among young people facing systemic oppression. This article outlines the design and implementation of a counterstorytelling study with LGBTQ youth and reflects on the value and associated challenges of counterstorytelling as a participatory research method
Financial development, remittances, and real exchange rate appreciation
For developing countries, remittances are an important and expanding source of capital, equivalent to two-thirds of overall foreign direct investment and nearly 2 percent of gross domestic product. ; This article examines the relationship between remittance inflows, financial sector development, and the real exchange rate. The authors test whether financial sector development can prevent appreciation of the real exchange rate. In particular, they show that well-developed financial sectors can more effectively channel remittances into investment opportunities. ; Using panel data for 109 developing and transition countries for 1990–2003, the authors find that remittances by themselves tend to put upward pressure on the real exchange rate. But this effect is weaker in countries with deeper and more sophisticated financial markets, which seem to retain trade competitiveness.Emigrant remittances ; Foreign exchange rates
Nonlinear nanomechanical resonators for quantum optoelectromechanics
We present a scheme for tuning and controlling nano mechanical resonators by
subjecting them to electrostatic gradient fields, provided by nearby tip
electrodes. We show that this approach enables access to a novel regime of
optomechanics, where the intrinsic nonlinearity of the nanoresonator can be
explored. In this regime, one or several laser driven cavity modes coupled to
the nanoresonator and suitably adjusted gradient fields allow to control the
motional state of the nanoresonator at the single phonon level. Some
applications of this platform have been presented previously [New J. Phys. 14,
023042 (2012), Phys. Rev. Lett. 110, 120503 (2013)]. Here, we provide a
detailed description of the corresponding setup and its optomechanical coupling
mechanisms, together with an in-depth analysis of possible sources of damping
or decoherence and a discussion of the readout of the nanoresonator state.Comment: 15 pages, 6 figure
Simulation of optical fibre communication systems influenced by stimulated brillouin scattering
Boyd's SBS model which includes distributed thermal acoustic noise (DTAN) has been enhanced to enable the Stokes-spontaneous density depletion noise (SSDDN) component of the transmitted optical field to be simulated, probably for the first time, as well as the full transmitted field. SSDDN would not be generated from previous SBS models in which a Stokes seed replaces DTAN. SSDDN becomes the dominant form of transmitted SBS noise as model fibre length (MFL) is increased but its optical power spectrum remains independent of MFL. Simulations of the full transmitted field and SSDDN for different MFLs allow prediction of the optical power spectrum, or system performance parameters which depend on this, for typical communication link lengths which are too long for direct simulation. The SBS model has also been innovatively improved by allowing the Brillouin Shift Frequency (BS) to vary over the model fibre length, for the nonuniform fibre model (NFM) mode, or to remain constant, for the uniform fibre model (UFM) mode. The assumption of a Gaussian probability density function (pdf) for the BSF in the NFM has been confirmed by means of an analysis of reported Brillouin amplified power spectral measurements for the simple case of a nominally step-index single-mode pure silica core fibre. The BSF pdf could be modified to match the Brillouin gain spectra of other fibre types if required. For both models, simulated backscattered and output powers as functions of input power agree well with those from a reported experiment for fitting Brillouin gain coefficients close to theoretical. The NFM and UFM Brillouin gain spectra are then very similar from half to full maximum but diverge at lower values. Consequently, NFM and UFM transmitted SBS noise powers inferred for long MFLs differ by 1-2 dB over the input power range of 0.15 dBm. This difference could be significant for AM-VSB CATV links at some channel frequencies. The modelled characteristic of Carrier-to-Noise Ratio (CNR) as a function of input power for a single intensity modulated subcarrier is in good agreement with the characteristic reported for an experiment when either the UFM or NFM is used. The difference between the two modelled characteristics would have been more noticeable for a higher fibre length or a lower subcarrier frequency
Failure of the Standard Coupled-Channels Method in Describing the Inelastic Reaction Data: On the Use of a New Shape for the Coupling Potential
We present the failure of the standard coupled-channels method in explaining
the inelastic scattering together with other observables such as elastic
scattering, excitation function and fusion data. We use both microscopic
double-folding and phenomenological deep potentials with shallow imaginary
components. We argue that the solution of the problems for the inelastic
scattering data is not related to the central nuclear potential, but to the
coupling potential between excited states. We present that these problems can
be addressed in a systematic way by using a different shape for the coupling
potential instead of the usual one based on Taylor expansion.Comment: 10 pages, 4 figures, 1 table, Latex:RevTex4 published in J. Phys. G:
Nucl. Part. Phy
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Integrating threshold concepts: exploring innovations in the redesign of a problem-based learning curriculum
YesAn innovative new midwifery programme leading to midwifery registration with the Nursing and Midwifery Council (NMC) developing potential registrants at both BSc and MSc levels commenced in September 2016. The programme is delivered utilising problem-based learning (PBL) as both a content delivery method and a philosophical approach, underpinning student learning at the UK's University of Bradford, School of Midwifery. A requirement for NMC revalidation at a five-year juncture and institutional programme reapproval acted as a catalyst for change. The programme team embraced a new curriculum framework which emphasised a move to reviewing stage and programme outcomes rather than concentrating on the minutiae of module outcomes. This new approach suited the holistic nature of PBL ensuring an intellectually challenging and inclusive method of teaching and learning for midwifery practice. A further progression for the programme team was to develop an understanding of, and to integrate, ‘threshold concepts’ or ‘troublesome knowledge’. These are defined as knowledge, principles or components which students find difficult to understand and therefore to utilise to improve practice and deliver high-quality care. This article explores the integration of threshold concepts into a problem-based midwifery curriculum
Effective grain surface area in the formation of molecular hydrogen in interstellar clouds
In the interstellar clouds, molecular hydrogens are formed from atomic
hydrogen on grain surfaces. An atomic hydrogen hops around till it finds
another one with which it combines. This necessarily implies that the average
recombination time, or equivalently, the effective grain surface area depends
on the relative numbers of atomic hydrogen influx rate and the number of sites
on the grain. Our aim is to discover this dependency. We perform a numerical
simulation to study the recombination of hydrogen on grain surfaces in a
variety of cloud conditions. We use a square lattice (with a periodic boundary
condition) of various sizes on two types of grains, namely, amorphous carbon
and olivine. We find that the steady state results of our simulation match very
well with those obtained from a simpler analytical consideration provided the
`effective' grain surface area is written as , where, is
the actual physical grain area and is a function of the flux of atomic
hydrogen which is determined from our simulation. We carry out the simulation
for various astrophysically relevant accretion rates. For high accretion rates,
small grains tend to become partly saturated with and and the
subsequent accretion will be partly inhibited. For very low accretion rates,
the number of sites to be swept before a molecular hydrogen can form is too
large compared to the actual number of sites on the grain, implying that
is greater than unity.Comment: 8 pages, 5 figures in eps forma
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