42,894 research outputs found
Molecular Dynamics Study of Bamboo-like Carbon Nanotube Nucleation
MD simulations based on an empirical potential energy surface were used to
study the nucleation of bamboo-like carbon nanotubes (BCNTs). The simulations
reveal that inner walls of the bamboo structure start to nucleate at the
junction between the outer nanotube wall and the catalyst particle. In
agreement with experimental results, the simulations show that BCNTs nucleate
at higher dissolved carbon concentrations (i.e., feedstock pressures) than
those where non-bamboolike carbon nanotubes are nucleated
Generalised CP and Family Symmetry
We perform a comprehensive study of the family symmetry
combined with the generalised CP symmetry . We investigate the
lepton mixing parameters which can be obtained from the original symmetry
breaking to different remnant symmetries in
the neutrino and charged lepton sectors, namely and subgroups
in the neutrino and the charged lepton sector respectively, and the remnant CP
symmetries from the breaking of are and
, respectively, where all cases correspond to a preserved
symmetry smaller than the full Klein symmetry, as in the semi-direct approach,
leading to predictions which depend on a single undetermined real parameter,
which may be fitted to the reactor angle for example. We discuss 26 possible
cases, including a global determination of the best fit parameters and
the correlations between mixing parameters, in each case.Comment: 71 pages, 10 figure
Experimental Estimates of the Impacts of Class Size on Test Scores: Robustness and Heterogeneity
Proponents of class size reductions draw heavily on the results from Project STAR to support their initiatives. Adding to the political appeal of these initiative are reports that minority and economically disadvantaged students received the largest benefits from smaller classes. We extend this research in two directions. First, to address correlated outcomes from the same class size treatment, we account for the over-rejection of the Null hypotheses by using multiple inference procedures. Second, we conduct a more detailed examination of the heterogeneous impacts of class size reductions on measures of cognitive and noncognitive achievement using more flexible models. We find that students with higher test scores received greater benefits from class size reductions. Furthermore, we present evidence that the main effects of the small class treatment are robust to corrections for the multiple hypotheses being tested. However, these same corrections lead the differential impacts of smaller classes by race and freelunch status to become statistically insignificant.class size; multiple inference; unconditional quantile regression; treatment effect heterogeneity; test score gaps; and education experiment
Do Peers Affect Student Achievement in China's Secondary Schools?
Peer effects have figured prominently in debates on school vouchers, desegregation, ability tracking and anti-poverty programs. Compelling evidence of their existence remains scarce for plaguing endogeneity issues such as selection bias and the reflection problem. This paper firmly establishes a link between peer performance and student achievement, using a unique dataset from China. We find strong evidence that peer effects exist and operate in a positive and nonlinear manner; reducing the variation of peer performance increases achievement; and our semi-parametric estimates clarify the tradeoffs facing policymakers in exploiting positive peers effects to increase future achievement.
Leptogenesis and residual CP symmetry
We discuss flavour dependent leptogenesis in the framework of lepton flavour
models based on discrete flavour and CP symmetries applied to the type-I seesaw
model. Working in the flavour basis, we analyse the case of two general
residual CP symmetries in the neutrino sector, which corresponds to all
possible semi-direct models based on a preserved in the neutrino sector,
together with a CP symmetry, which constrains the PMNS matrix up to a single
free parameter which may be fixed by the reactor angle. We systematically study
and classify this case for all possible residual CP symmetries, and show that
the -matrix is tightly constrained up to a single free parameter, with only
certain forms being consistent with successful leptogenesis, leading to
possible connections between leptogenesis and PMNS parameters. The formalism is
completely general in the sense that the two residual CP symmetries could
result from any high energy discrete flavour theory which respects any CP
symmetry. As a simple example, we apply the formalism to a high energy
flavour symmetry with a generalized CP symmetry, broken to two residual CP
symmetries in the neutrino sector, recovering familiar results for PMNS
predictions, together with new results for flavour dependent leptogenesis.Comment: 35 pages, 8 figure
Tri-Direct CP in the Littlest Seesaw Playground
We discuss spontaneously broken CP symmetry in two right-handed neutrino
models based on the idea of having a {\it different residual flavour symmetry},
together with a {\it different residual CP symmetry}, associated with each of
the two right-handed neutrinos. The charged lepton sector also has a {\it
different residual flavour symmetry}. In such a {\it tri-direct CP approach},
we show that the combination of the three residual flavour and two residual CP
symmetries provides a new way of fixing the parameters. To illustrate the
approach, we revisit the Littlest Seesaw (LSS) model based on and then
propose new variants which have not so far appeared in the literature, with
different predictions for each variant. We analyse numerically the predictions
of the new variants, and then propose an explicit model which can realise one
of the successful benchmark points, based on the atmospheric flavon vacuum
alignment and the solar flavon vacuum alignment .Comment: 31 pages, 4 figure
Generalised CP and Family Symmetry
We perform a comprehensive study of family symmetry models based on
combined with the generalised CP symmetry . We investigate the
lepton mixing parameters which can be obtained from the original symmetry
breaking to different remnant symmetries in the
neutrino and charged lepton sectors. We find that only one case is
phenomenologically viable, namely in the neutrino sector and in the charged lepton sector, leading to the
prediction of no CP violation, namely and the Majorana phases
and are all equal to either zero or . We then
propose an effective supersymmetric model based on the symmetry in which trimaximal lepton mixing is predicted together with
either zero CP violation or with non-trivial
Majorana phases. An ultraviolet completion of the effective model yields a
neutrino mass matrix which depends on only three real parameters. As a result
of this, all three CP phases and the absolute neutrino mass scale are
determined, the atmospheric mixing angle is maximal, and the Dirac CP can
either be preserved with or maximally broken with
and sharp predictions for the Majorana phases and
neutrinoless double beta decay.Comment: 38 pages, 3 figure
Golden Littlest Seesaw
We propose and analyse a new class of Littlest Seesaw models, with two
right-handed neutrinos in their diagonal mass basis, based on preserving the
first column of the Golden Ratio mixing matrix. We perform an exhaustive
analysis of all possible remnant symmetries of the group which can be
used to enforce various vacuum alignments for the flavon controlling solar
mixing, for two simple cases of the atmospheric flavon vacuum alignment. The
solar and atmospheric flavon vacuum alignments are enforced by {\em different}
remnant symmetries. We examine the phenomenological viability of each of the
possible Littlest Seesaw alignments in , which preserve the first column
of the Golden ratio mixing matrix, using figures and extensive tables of
benchmark points and comparing our predictions to a recent global analysis of
neutrino data. We also repeat the analysis for an alternative form of Golden
Ratio mixing matrix.Comment: 32 pages, 7 figure
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