Proton fraction in neutron stars

The proton fraction in {\sl \beta}-stable neutron stars is investigated within the framework of the Skyrme-Hartree-Fock theory using the extended Skyrme effective interaction for the first time. The calculated results show that the proton fraction disappears at high density, which implies that the pure neutron matter may exist in the interior of neutron stars. The incompressibility of the nuclear equation of state is shown to be more important to determine the proton fraction. Meanwhile, it is indicated that the addition of muons in neutron stars will change the proton fraction. It is also found that the higher-order terms of the nuclear symmetry energy have obvious effects on the proton fraction and the parabolic law of the nuclear symmetry energy is not enough to determine the proton fraction.Comment: 4 Pgaes in REVTex, 2 Figures, 1 Tabl

IDENTIFICATION AND ASSESSMENT OF LONGITUDINAL BIOMARKERS USING FRAILTY MODELS IN SURVIVAL ANALYSIS

A biomarker is a measurement which can be used as a predictor or sometimes even a surrogate for a biological endpoint that directly measures a patient's disease or survival status. Biomarkers are often measured over time and so are referred to as longitudinal biomarkers. Biomarkers are of public health interest because they can provide early detection of life threatening or fatal diseases. It is important in public health to be able to identify biomarkers to predict survival for patients because it can reduce the time and cost necessary to resolve the study question or used to identify subsets of patients who would be appropriate candidates for the administration of a targeted therapy. In this dissertation, we introduce a method employing a frailty model to identify longitudinal biomarkers or surrogates for a time to event outcome. Our method is an extension of earlier work by Wulfson, Tsiatis, and Song where it was assumed that the event times have the same baseline hazard. In our method, we allow random effects to be present in both the longitudinal biomarker and underlying survival function. The random effect in the biomarker is introduced via an explicit term while the random effect in the underlying survival function is introduced by the inclusion of frailty parameters into the model. We use simulations to explore how the number of individuals, the number of time points per individual and the functional form of the random effects from the longitudinal biomarkers influence the power to detect the association of the longitudinal biomarker and the survival time. We also explore effect of missingness on how a biomarker predicts a time to event outcome. We conclude that for a given sample size, the biomarker effectiveness for relatively small numbers of subjects and large numbers of observed time points is better than for relatively large numbers of subjects and small numbers of observed time points. We also conclude that when the missing data mechanism is missing at random (MAR), our method works reasonably well. However, when the missing data mechanism is non-ignorable, our method doesn't perform well in determining whether or not potential biomarkers are good predictors of a time to event outcome. Finally, we apply our method to liver cirrhosis data and conclude that prothrombin is a good predictor of time to liver cirrhosis and thus, can be used as a potential surrogate for liver failure

Godel Universe from String Theory

G\"odel universe is a direct product of a line and a three-dimensional spacetime we call G$_\alpha$. In this paper, we show that the G\"odel metrics can arise as exact solutions in Einstein-Maxwell-Axion, Einstein-Proca-Axion, or Freedman-Schwarz gauged supergravity theories. The last allows us to embed G\"odel universe in string theory. The ten-dimensional spacetime is a direct product of a line and the nine-dimensional one of an $S^3\times S^3$ bundle over G$_\alpha$, and it can be interpreted as some decoupling limit of the rotating D1/D5/D5 intersection. For some appropriate parameter choice, the nine-dimensional metric becomes an AdS$_3\times S^3$ bundle over squashed 3-sphere. We also study the properties of the G\"odel black holes that are constructed from the double Wick rotations of the G\"odel metrics.Comment: latex, 20 pages, discussion on null-energy condition included, typos corrected and references adde