2,524 research outputs found
The Supersymmetric Leptophilic Higgs Model
In the leptophilic model, one Higgs doublet couples to quarks and another
couples to leptons. We study the supersymmetric version of this model,
concentrating on the tightly constrained Higgs sector, which has four doublets.
Constraints from perturbativity, unitarity, and LEP bounds are considered. It
is found that the lightest Higgs, h, can have a mass well below 114 GeV, and
for masses below 100 GeV will have a substantially enhanced branching ratio
into tau pairs. For this region of parameter space, traditional production
mechanisms (Higgs-strahlung, W fusion and gluon fusion) are suppressed, but it
may be produced in the decay of heavier particles. The second lightest Higgs
has a mass of approximately 110 GeV for virtually all of parameter space, with
Standard Model couplings, and thus an increase of a few GeV in the current
lower bound on the Standard Model Higgs mass would rule out the model. The two
heavier Higgs are both gauge-phobic, one decays almost entirely into b pairs
and can be produced via gluon fusion while the other decays almost entirely
into tau pairs but can't be easily produced.Comment: 21 pages, 6 figure
A Supersymmetric Model with Dirac Neutrino Masses
New models have recently been proposed in which a second Higgs doublet
couples only to the lepton doublets and right-handed neutrinos, yielding Dirac
neutrino masses. The vacuum value of this second "nu-Higgs" doublet is made
very small by means of a very softly-broken or U(1) symmetry. The latter
is technically natural and avoids fine-tuning and very light scalars. We
consider a supersymmetric version of this model, in which two additional
doublets are added to the MSSM. If kinematically allowed, the decay of the
heavy MSSM scalar into charged nu-Higgs scalars will yield dilepton events
which can be separated from the W-pair background. In addition, the
nu-Higgsinos can lead to very dramatic tetralepton, pentalepton and hexalepton
events which have negligible background and can be detected at the LHC and the
Tevatron.Comment: 18 pages, 3 figures, 6 tables; PRD versio
Lattice study of the Coleman--Weinberg mass in the SU(2)-Higgs model
Radiative symmetry breaking is a well known phenomenon in perturbation
theory. We study the problem in a non-perturbative framework, i.e. lattice
simulations. The example of the bosonic sector of the SU(2)-Higgs model is
considered. We determine the minimal scalar mass which turns out to be higher
than the mass value given by 1-loop continuum perturbation theory.Comment: Contribution to ICHEP-02, Amsterdam, 24-31 July 2002, 2 pages, 1
figur
Ethnobotanical evaluation of some plant resources in Northern part of Pakistan
An ethnobotanical study on the medicinal and economic plants of Malam Jabba valley, District Swat was conducted with the aims of documenting the inventory of medicinal plants, examinining the current status of the medicinal plants trade and investigating the linkages in the market chain starting from collectors to consumers. The survey reported 50 species of plants belonging to 33 families as ethnobotanically important. These species are used as drugs for treating diseases in traditional system of medicine. The detailed local uses, recipe preparation along with their local names and diseases treated were recorded for each species. Market survey revealed that the structure of medicinal plant trade is complex and heterogeneous, involving many players. The collectors are often not aware of the high market prices and medicinal values, and most of the collected material is sold to local middlemen at a very low price. There was an increase of 3 to 5 folds in prices from collectors to the national market. Training in sustainable harvesting and post harvesting of wild medicinal plant resource, trade monitoring, equitable sharing of benefits of wild resources, improved control on harvesting and trade for the conservation of resources, enhancement of cultivation efforts, future research into trade in wild harvested plants, community participation in natural resource management and value addition in the herbal products to maximize the benefits are recommended
Combined analysis of microbial metagenomic and metatranscriptomic sequencing data to assess in situ physiological conditions in the premature infant gut.
Microbes alter their transcriptomic profiles in response to the environment. The physiological conditions experienced by a microbial community can thus be inferred using meta-transcriptomic sequencing by comparing transcription levels of specifically chosen genes. However, this analysis requires accurate reference genomes to identify the specific genes from which RNA reads originate. In addition, such an analysis should avoid biases in transcript counts related to differences in organism abundance. In this study we describe an approach to address these difficulties. Sample-specific meta-genomic assembled genomes (MAGs) were used as reference genomes to accurately identify the origin of RNA reads, and transcript ratios of genes with opposite transcription responses were compared to eliminate biases related to differences in organismal abundance, an approach hereafter named the "diametric ratio" method. We used this approach to probe the environmental conditions experienced by Escherichia spp. in the gut of 4 premature infants, 2 of whom developed necrotizing enterocolitis (NEC), a severe inflammatory intestinal disease. We analyzed twenty fecal samples taken from four premature infants (4-6 time points from each infant), and found significantly higher diametric ratios of genes associated with low oxygen levels in samples of infants later diagnosed with NEC than in samples without NEC. We also show this method can be used for examining other physiological conditions, such as exposure to nitric oxide and osmotic pressure. These study results should be treated with caution, due to the presence of confounding factors that might also distinguish between NEC and control infants. Nevertheless, together with benchmarking analyses, we show here that the diametric ratio approach can be applied for evaluating the physiological conditions experienced by microbes in situ. Results from similar studies can be further applied for designing diagnostic methods to detect NEC in its early developmental stages
Charged Leptons With Nanosecond Lifetimes
Some extensions of the standard model contain additional leptons which are
vectorlike under weak isospin. A class of models is considered in which these
leptons do not appreciably mix with the known leptons. In such models, the
heavy charged lepton and the heavy neutrino are degenerate in mass, and the
degeneracy is broken by radiative corrections. The mass splitting is calculated
and found to be very weakly dependent on the lepton mass, varying from 250 to
330 MeV as the mass varies from 100 to 800 GeV. This result is {\it not}
affected significantly by inclusion in a supersymmetric model in spite of the
additional loops involving the superpartners. As a result, this fairly general
class of models has a charged lepton whose lifetime varies in the narrow range
from 0.5 to 2.0 nanoseconds, and which decays into neutrals plus a very low
energy electron or muon.Comment: 7 pages, revtex, 3 figures available upon reques
Production, Collection and Utilization of Very Long-Lived Heavy Charged Leptons
If a fourth generation of leptons exists, both the neutrino and its charged
partner must be heavier than 45 GeV. We suppose that the neutrino is the
heavier of the two, and that a global or discrete symmetry prohibits
intergenerational mixing. In that case, non-renormalizable Planck scale
interactions will induce a very small mixing; dimension five interactions will
lead to a lifetime for the heavy charged lepton of years. Production
of such particles is discussed, and it is shown that a few thousands can be
produced and collected at a linear collider. The possible uses of these heavy
leptons is also briefly discussed.Comment: 9 pages Late
Induced antiferromagnetism and large magnetoresistances in RuSr2(Nd,Y,Ce)2Cu2O10-d ruthenocuprates
RuSr2(Nd,Y,Ce)2Cu2O10-d ruthenocuprates have been studied by neutron
diffraction, magnetotransport and magnetisation measurements and the electronic
phase diagram is reported. Separate Ru and Cu spin ordering transitions are
observed, with spontaneous Cu antiferromagnetic order for low hole doping
levels p, and a distinct, induced-antiferromagnetic Cu spin phase in the 0.02 <
p < 0.06 pseudogap region. This ordering gives rise to large negative
magnetoresistances which vary systematically with p in the
RuSr2Nd1.8-xY0.2CexCu2O10-d series. A collapse of the magnetoresistance (MR)
and magnetisation in the pre-superconducting region may signify the onset of
superconducting fluctuations.Comment: 22 pages, 11 figure
First-Principles Calculation of Born Effective Charges and Spontaneous Polarization of Ferroelectric Bismuth Titanate
In this study, we present the results of our first-principles calculations of
the band structure, density of states and the Born effective charge tensors for
the ferroelectric (ground state B1a1) and paraelectric (I4/mmm) phases of
bismuth titanate. The calculations are done using the generalized gradient
approximation (GGA) as well as the local density approximation (LDA) of the
density functional theory. In contrast to the literature, our calculations on
B1a1 structure using GGA and LDA yield smaller indirect band gaps as compared
to the direct band gaps, in agreement with the experimental data. The density
of states shows considerable hybridization among Ti 3d, Bi 6p and O 2p states
indicating covalent nature of the bonds leading to the ferroelectric
instability. The Born effective charge tensors of the constituent ions for the
ground state (B1a1) and paraelectric (I4/mmm) structures were calculated using
the Berry phase method. This is followed by the calculation of the spontaneous
polarization for the ferroelectric B1a1 phase using the Born effective charge
tensors of the individual ions. The calculated value for the spontaneous
polarization of ferroelectric bismuth titanate using different Born effective
charges was found to be in the range of 55+/-13 C/cm2 in comparison to the
reported experimental value of (50+/-10 C/cm2) for single crystals. The
origin of ferroelectricity is attributed to the relatively large displacements
of those oxygen ions in the TiO6 octahedra that lie along the a-axis of the
bismuth titanate crystal.Comment: 36 pages, 5 figure
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