15,628 research outputs found
Elasticity of Substitution and Growth Effects of Taxation
Master'sMASTER OF SOCIAL SCIENCE
Propensity Score Adjustment in Measurement Invariance
Measurement invariance testing is prerequisite if meaningful comparisons of latent construct across groups are important to the study in social science. If measurement invariance is rejected, the result of non-invariance might be from unbalanced covariates across groups. Propensity score is one approach to correct unbalanced covariates in the data when these unbalanced covariates are the source of measurement non-invariance.
The main purpose of this dissertation is to evaluate propensity score adjustment in testing measurement invariance in both empirical data and Monte Carlo simulation study. The traditional logistic regression and machine learning estimation method (i.e., random forest) were applied to obtain accurate propensity score.
In empirical study, when propensity score was applied as a new covariate to adjust unbalanced covariates across groups, measurement invariance was improved from metric invariance to scalar invariance. Weighting by odds method with random forest estimation improved the metric invariance to scalar invariance, but weighting with logistic regression did not.
The results of a simulation study indicated a substantial Type I error rate inflation if ignoring the unbalanced covariates among groups and using multiple group CFA to conduct the measurement invariance test. Type I error rate inflation was also observed if logistic regression was applied to adjust measurement invariance. On the other hand, using random forest estimation method to balance covariates across groups gave accurate measurement invariance test conclusion
Coupling the valley degree of freedom to antiferromagnetic order
Conventional electronics are based invariably on the intrinsic degrees of
freedom of an electron, namely, its charge and spin. The exploration of novel
electronic degrees of freedom has important implications in both basic quantum
physics and advanced information technology. Valley as a new electronic degree
of freedom has received considerable attention in recent years. In this paper,
we develop the theory of spin and valley physics of an antiferromagnetic
honeycomb lattice. We show that by coupling the valley degree of freedom to
antiferromagnetic order, there is an emergent electronic degree of freedom
characterized by the product of spin and valley indices, which leads to
spin-valley dependent optical selection rule and Berry curvature-induced
topological quantum transport. These properties will enable optical
polarization in the spin-valley space, and electrical detection/manipulation
through the induced spin, valley and charge fluxes. The domain walls of an
antiferromagnetic honeycomb lattice harbors valley-protected edge states that
support spin-dependent transport. Finally, we employ first principles
calculations to show that the proposed optoelectronic properties can be
realized in antiferromagnetic manganese chalcogenophosphates (MnPX_3, X = S,
Se) in monolayer form.Comment: 6 pages, 5 figure
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