18,655 research outputs found
A Model for Large theta13 Constructed using the Eigenvectors of the S4 Rotation Matrices
A procedure for using the eigenvectors of the elements of the representations
of a discrete group in model building is introduced and is used to construct a
model that produces a large reactor mixing angle, sin^2(theta13)=2/3
sin^2(pi/16), in agreement with recent neutrino oscillation observations. The
model fully constrains the neutrino mass ratios and predicts normal hierarchy
with the light neutrino mass, m1~25 meV. Motivated by the model, a new mixing
ansatz is postulated which predicts all the mixing angles within 1sigma errors.Comment: 6 pages, 1 figure, contribution to the proceedings of DISCRETE 2012
to appear in the open access Journal of Physics: Conference Series (JPCS),
preprint typeset in two-column revtex4 styl
neutrino mixing with
We construct a neutrino model using the flavour group under the type-1 seesaw mechanism. The vacuum alignments of the flavons in
the model lead to mixing with . The mixing also exhibits
reflection symmetry. By fitting the eigenvalues of the
effective seesaw mass matrix with the observed neutrino mass-squared
differences, we predict the individual light neutrino masses. The vacuum
alignment of the triplet appearing in the Majorana mass term plays a key
role in obtaining the aforementioned scenario. Since the
symmetries of the flavour group are not sufficient to define this alignment, we
apply the recently proposed framework of the auxiliary group in our model.
Using this framework, the triplet is obtained by coupling together
several irreducible multiplets that transform under an expanded flavour group
consisting of the original flavour group as well as an auxiliary group. The
vacuum alignment of each of these multiplets is uniquely defined in terms of
its residual symmetries under the expanded flavour group. As a result, the
triplet constructed from these multiplets also becomes uniquely defined.Comment: 17 pages, 5 figure
Structure, Conduct and Performance of Value Chain in Seaweed farming in India
Among the three types of technologies available in the fisheries sector in India, seaweed farming, initially promoted as a livelihood option, has emerged as the one area which probably has the maximum potential for up-scaling. This paper has examined the structure, conduct and performance of the value chain in seaweed farming in India inquiring into the production, institutional, marketing, social and community relationships in small-scale seaweed farming in the Ramanathapuram district of Tamil Nadu and the concept of self-help groups (SHG) as an increasingly workable option for coastal resources management. The value chain analysis of the sector has substantially proved that committed and synergistic production, marketing and institutional arrangements enabled by corporate leadership, offers considerable savings in transaction costs. The SHG model has also shown strong gender orientation in the initial years of seaweed culture in the district contributing to strong structural foundations to the movement. The seaweed sector in the coastal India has all the potential to rise from the low-income conditions normally associated with basic livelihood activities to higher levels of employment-income-consumption relationships.Agricultural and Food Policy,
Giant coherence in driven systems
We study the noise-induced currents and reliability or coherence of transport
in two different classes of rocking ratchets. For this, we consider the motion
of Brownian particles in the over damped limit in both adiabatic and
non-adiabatic regimes subjected to unbiased temporally symmetric and asymmetric
periodic driving force. In the case of a time symmetric driving, we find that
even in the presence of a spatially symmetric simple sinusoidal potential,
highly coherent transport occurs. These ratchet systems exhibit giant coherence
of transport in the regime of parameter space where unidirectional currents in
the deterministic case are observed. Outside this parameter range, i.e., when
current vanishes in the deterministic regime, coherence in transport is very
low. The transport coherence decreases as a function of temperature and is a
non-monotonic function of the amplitude of driving. The transport becomes
unreliable as we go from the adiabatic to the non-adiabatic domain of
operation.Comment: 15 pages, 9 figures, replaced by the version to appear in JSTA
Dynamical Horizons: Energy, Angular Momentum, Fluxes and Balance Laws
Dynamical horizons are considered in full, non-linear general relativity.
Expressions of fluxes of energy and angular momentum carried by gravitational
waves across these horizons are obtained. Fluxes are local, the energy flux is
positive and change in the horizon area is related to these fluxes. The flux
formulae also give rise to balance laws analogous to the ones obtained by Bondi
and Sachs at null infinity and provide generalizations of the first and second
laws of black hole mechanics.Comment: 4 pages, RevTeX4. Minor typos corrected. To appear in Phys.Rev.Let
An approach to distributed execution of Ada programs
Intelligent control of the Space Station will require the coordinated execution of computer programs across a substantial number of computing elements. It will be important to develop large subsets of these programs in the form of a single program which executes in a distributed fashion across a number of processors. A translation strategy for distributed execution of Ada programs in which library packages and subprograms may be distributed is described. A preliminary version of the translator is operational. Simple data objects (no records or arrays as yet), subprograms, and static tasks may be referenced remotely
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