5,149 research outputs found
Water Hauling and Girls' School Attendance Some New Evidence From Ghana
In large parts of the world, a lack of home tap water burdens households as the water must be brought to the house from outside, at great expense in terms of effort and time. This paper studies how such costs affect girls' schooling in Ghana, with an analysis based on four rounds of the Demographic and Health Surveys
Pupil mobility, attainment and progress in secondary school
This paper is the second of two articles arising from a study of the association between pupil mobility and attainment in national tests and examinations in an inner London borough. The first article (Strand & Demie, 2006) examined the association of pupil mobility with attainment and progress during primary school. It concluded that pupil mobility had little impact on performance in national tests at age 11, once pupils’ prior attainment at age 7 and other pupil background factors such as age, sex, special educational needs, stage of fluency in English and socio-economic disadvantage were taken into account. The present article reports the results for secondary schools (age 11-16). The results indicate that pupil mobility continues to have a significant negative association with performance in public examinations at age 16, even after including statistical controls for prior attainment at age 11 and other pupil background factors. Possible reasons for the contrasting results across school phases are explored. The implications for policy and further research are discussed
Measuring and modeling optical diffraction from subwavelength features
We describe a technique for studying scattering from subwavelength features. A simple scatterometer was developed to measure the scattering from the single-submicrometer, subwavelength features generated with a focused ion beam system. A model that can describe diffraction from subwavelength features with arbitrary profiles is also presented and shown to agree quite well with the experimental measurements. The model is used to demonstrate ways in which the aspect ratios of subwavelength ridges and trenches can be obtained from scattering data and how ridges can be distinguished from trenches over a wide range of aspect ratios. We show that some earlier results of studies on distinguishing pits from particles do not extend to low-aspect-ratio features
Community of inquiry and inquiry-based learning
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Spin injection from the Heusler alloy Co_2MnGe into Al_0.1Ga_0.9As/GaAs heterostructures
Electrical spin injection from the Heusler alloy Co_2MnGe into a p-i-n
Al_0.1Ga_0.9As/GaAs light emitting diode is demonstrated. A maximum
steady-state spin polarization of approximately 13% at 2 K is measured in two
types of heterostructures. The injected spin polarization at 2 K is calculated
to be 27% based on a calibration of the spin detector using Hanle effect
measurements. Although the dependence on electrical bias conditions is
qualitatively similar to Fe-based spin injection devices of the same design,
the spin polarization injected from Co_2MnGe decays more rapidly with
increasing temperature.Comment: 8 pages, 4 figure
Dual Bethe-Salpeter equation for the multi-orbital lattice susceptibility within dynamical mean-field theory
Dynamical mean-field theory describes the impact of strong local correlation
effects in many-electron systems. While the single-particle spectral function
is directly obtained within the formalism, two-particle susceptibilities can
also be obtained by solving the Bethe-Salpeter equation. The solution requires
handling infinite matrices in Matsubara frequency space. This is commonly
treated using a finite frequency cut-off, resulting in slow linear convergence.
We show that decomposing the two-particle response in local and non-local
contributions enables a reformulation of the Bethe-Salpeter equation inspired
by the dual boson formalism. The re-formulation has a drastically improved
cubic convergence with respect to the frequency cut-off, facilitating the
calculation of susceptibilities in multi-orbital systems considerably. The dual
Bethe-Salpeter equation uses the fully reducible vertex which is free from
vertex divergences. We benchmark the approach on several systems including the
spin susceptibility of strontium ruthenate SrRuO, a strongly correlated
Hund's metal with three active orbitals. We propose the dual Bethe-Salpeter
equation as a new standard for calculating two-particle response within
dynamical mean-field theory
Larmor precession in strongly correlated itinerant electron systems
Many-electron systems undergo a collective Larmor precession in the presence
of a magnetic field. In a paramagnetic metal, the resulting spin wave provides
insight into the correlation effects generated by the electron-electron
interaction. Here, we use dynamical mean-field theory to investigate the
collective Larmor precession in the strongly correlated regime, where dynamical
correlation effects such as quasiparticle lifetimes and non-quasiparticle
states are essential. We study the spin excitation spectrum, which includes a
dispersive Larmor mode as well as electron-hole excitations that lead to Stoner
damping. We also extract the momentum-resolved damping of slow spin waves. The
accurate theoretical description of these phenomena relies on the Ward
identity, which guarantees a precise cancellation of self-energy and vertex
corrections at long wavelengths. Our findings pave the way towards a better
understanding of spin wave damping in correlated materials
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