1,220 research outputs found
Dark Matter "Collider" from Inelastic Boosted Dark Matter
We propose a novel dark matter (DM) detection strategy for the models with
non-minimal dark sector. The main ingredients in the underlying DM scenario are
a boosted DM particle and a heavier dark sector state. The relativistic DM
impinged on target material scatters off inelastically to the heavier state
which subsequently decays into DM along with lighter states including visible
(Standard Model) particles. The expected signal event, therefore, accompanies a
visible signature by the secondary cascade process associated with a recoiling
of the target particle, differing from the typical neutrino signal not
involving the secondary signature. We then discuss various kinematic features
followed by DM detection prospects at large volume neutrino detectors with a
model framework where a dark gauge boson is the mediator between the Standard
Model particles and DM.Comment: 6 pages, 4 figures, 2 table
Searching for Boosted Dark Matter via Dark-Strahlung
We propose a new search channel for boosted dark matter (BDM) signals coming
from the present universe, which are distinct from simple neutrino signals
including those coming from the decay or pair-annihilation of dark matter. The
signal process is initiated by the scattering of high-energetic BDM off either
an electron or a nucleon. If the dark matter is dark-sector U(1)-charged, the
scattered BDM may radiate a dark gauge boson (called "dark-strahlung") which
subsequently decays to a Standard Model fermion pair. We point out that the
existence of this channel may allow for the interpretation that the associated
signal stems from BDM, not from the dark-matter-origin neutrinos. Although the
dark-strahlung process is generally subleading compared to the lowest-order
simple elastic scattering of BDM, we find that the BDM with a significant boost
factor may induce an O(10-20%) event rate in the parameter regions unreachable
by typical beam-produced dark-matter. We further find that the dark-strahlung
channel may even outperform the leading-order channel in the search for BDM,
especially when the latter is plagued by substantial background contamination.
We argue that cosmogenic BDM searches readily fall in such a case, hence taking
full advantage of dark-strahlung. As a practical application, experimental
sensitivities expected in the leading-order and dark-strahlung channels are
contrasted in dark gauge boson parameter space, under the environment of DUNE
far-detectors, revealing usefulness of dark-strahlung.Comment: 9 pages, 4 figures, Journal-submitted versio
A Currency Union in East Asia
This paper investigates prospects of a currency union in East Asia, focusing on trade and financial integration occurring in the region. We find, based on a dynamic factor model, regional common shocks have been quantitatively important for output variations in the Asian economies. We expect that continuing trade integration in the region will lead to further synchronization of business cycles, thereby encouraging East Asian countries to create a currency union in the region. In contrast to trade, however, financial liberalization in East Asia tends to lead to more global integration, rather than regional integration, of the financial systems, and thereby is not likely to develop favorable conditions for forming a regional currency union among East Asian countries.
The effects of pre-pregnancy body mass index and gestational weight gain on perinatal outcomes in Korean women: a retrospective cohort study
<p>Abstract</p> <p>Background</p> <p>The purpose of the study was to evaluate the effects of maternal pre-pregnancy body mass index (BMI) and gestational weight gain on perinatal outcomes in a population of Korean women.</p> <p>Methods</p> <p>We retrospectively reviewed the medical records of 2,454 women who had received antenatal care at Seoul St. Mary's Hospital from January 2007 to December 2009. We used World Health Organization definitions for Asian populations of underweight (BMI < 18.5), normal (BMI equal or higher 18.5 and < 23), overweight (BMI equal or higher 23 and < 25), and obese (BMI equal or higher 25). We analyzed perinatal outcomes according to the pre-pregnancy BMI and weight gain during pregnancy, and calculated the adjusted odds ratios (ORs) and 95% confidence intervals (CIs) from multiple logistic regression models by considering maternal age, parity, number of fetuses, length of gestation, and medical history.</p> <p>Results</p> <p>Among obese women, the adjusted ORs for gestational diabetes, hypertensive disorder, and incompetent internal os of cervix were 4.46, 2.53, and 3.70 (95% CI = 2.63-7.59, 1.26-5.07, and 1.50-9.12), respectively, and the adjusted ORs for neonatal complications such as macrosomia and low Apgar score were 2.08 and 1.98 (95% CI = 1.34-3.22 and 1.19-3.29), respectively, compared with normal weight women. However, there was no positive linear association between gestational weight gain and obstetric outcomes. In normal weight women, maternal and neonatal complications were significantly increased with inadequate weight gain during pregnancy (p < 0.0001 and = 0.0180, respectively), and we observed similar results in underweight women (p = 0.0136 and 0.0004, respectively).</p> <p>Conclusions</p> <p>This study shows that pre-pregnancy overweight and obesity are more closely related to the adverse obstetric outcomes than excess weight gain during pregnancy. In addition, inadequate weight gain during pregnancy can result in significant complications.</p
Optimizing Energetic Light Dark Matter Searches in Dark Matter and Neutrino Experiments
Neutrino and dark matter experiments with large-volume ( ton)
detectors can provide excellent sensitivity to signals induced by energetic
light dark matter coming from the present universe. Taking boosted dark matter
as a concrete example of energetic light dark matter, we scrutinize two
representative search channels, electron scattering and proton scattering
including deep inelastic scattering processes, in the context of elastic and
inelastic boosted dark matter, in a completely detector-independent manner. In
this work, a dark gauge boson is adopted as the particle to mediate the
interactions between the Standard Model particles and boosted dark matter. We
find that the signal sensitivity of the two channels highly depends on the
(mass-)parameter region to probe, so search strategies and channels should be
designed sensibly especially at the earlier stage of experiments. In
particular, the contribution from the boosted-dark-matter-initiated deep
inelastic scattering can be subleading (important) compared to the
quasi-elastic proton scattering, if the mass of the mediator is below (above)
(GeV). We demonstrate how to practically perform searches and
relevant analyses, employing example detectors such as DarkSide-20k, DUNE,
Hyper-Kamiokande, and DeepCore, with their respective detector specifications
taken into consideration. For other potential detectors we provide a summary
table, collecting relevant information, from which similar studies can be
fulfilled readily.Comment: 47 pages, 9 figures, 3 tables, Journal submission versio
A Case Study on Safe Blast Design with Vibration Analysis
Safe delicacy blasting is necessarily to decrease safe problems resulting from blasting but if designs to consider only safety, it is a problem not to ensure economical gains because the effect of blasting is decreased. Therefore, blasting vibration must be predicted to consider given circumstances and ground conditions before blasting work, and then a design based on predicted result must be done. In this study, the testing blasting was carried out in two fields within a country, and then measured data for testing blasting were collected. The effect for blasting vibration was analyzed as the property of distance, charging gunpowder capacity, surrounding conditions, and measured points. The test results were performed by back-analysis, and compared with previous research results. Therefore, it will be proposed an effective prediction and design
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