24,451 research outputs found
Nuclear physics insights for new-physics searches using nuclei: Neutrinoless decay and dark matter direct detection
Experiments using nuclei to probe new physics beyond the Standard Model, such
as neutrinoless decay searches testing whether neutrinos are their
own antiparticle, and direct detection experiments aiming to identify the
nature of dark matter, require accurate nuclear physics input for optimizing
their discovery potential and for a correct interpretation of their results.
This demands a detailed knowledge of the nuclear structure relevant for these
processes. For instance, neutrinoless decay nuclear matrix
elements are very sensitive to the nuclear correlations in the initial and
final nuclei, and the spin-dependent nuclear structure factors of dark matter
scattering depend on the subtle distribution of the nuclear spin among all
nucleons. In addition, nucleons are composite and strongly interacting, which
implies that many-nucleon processes are necessary for a correct description of
nuclei and their interactions. It is thus crucial that theoretical studies and
experimental analyses consider decays and dark matter interactions with
a coupling to two nucleons, called two-nucleon currents.Comment: 11 pages, 5 figures, invited parallel talk at the XIIth Quark
Confinement & the Hadron Spectrum conference, Thessaloniki, Greece, 201
Tellurium vacancy in cadmium telluride revisited: size effects in the electronic properties
The quantum states and thermodynamical properties of the Te vacancy in CdTe
are addressed by first principles calculations, including the supercell size
and quasiparticle corrections. It is shown that the 64-atoms supercell
calculation is not suitable to model the band structure of the isolated Te
vacancy. This problem can be solved with a larger 216-atoms supercell, where
the band structure of the defect seems to be a perturbation of that of the
perfect crystal. It is interesting to note that the Te-vacancy formation energy
calculated with both supercell sizes are close in energy, which is attributed
to error cancelation. We also show that the interplay between supercell size
effects and the band gap underestimation of the generalized gradient
approximation strongly influences the predicted symmetry of some charge states.Comment: 9 pages, 7 figure
The morality of political liberalism
The paper discusses two ways to understand political liberalism. On the one hand, political liberalism may rely on the existence of an overlapping consensus among all reasonable comprehensive views present in our society. On the other hand, we may ground political liberalism on the moral value of equal respect for everyone. The dilemma between a factual identification of an overlapping consensus and a normative appeal to moral values arises at two levels. First, when we fill the content of our political conception of justice. And second, when we require impartiality to fill that content. In the former case, we may argue for a particular conception of justice through normative argument with moral premises, or our political conception of justice might be the area where all reasona-ble comprehensive views overlap. Similarly, we require that citizens offer impartial public reasons because this is what people holding different comprehensive views do think ap-propriate, or because they should consider it so. The author argues that we should define our political conception of justice through impartial normative argument, and that we should ground the demand of impartiality on the moral value of equal respect
Assessment of the feasible CTA windows for efficient spacing with energy-neutral CDO
Continuous descent operations (CDO) with con-
trolled times of arrival (CTA) at one or several metering fixes
could enable environmentally friendly procedures at the same
time that terminal airspace capacity is not compromised. This
paper focuses on CTA updates once the descent has been already
initiated, assessing the feasible CTA window (and associated fuel
consumption) of CDO requiring neither thrust nor speed-brake
usage along the whole descent (i.e. energy modulation through
elevator control is used to achieve different times of arrival at
the metering fixes). A multiphase optimal control problem is
formulated and solved by means of numerical methods. The
minimum and maximum times of arrival at the initial approach
fix (IAF) and final approach point (FAP) of an hypothetical
scenario are computed for an Airbus A320 descent and starting
from a wide range of initial conditions. Results show CTA
windows up to 4 minutes at the IAF and 70 seconds at the FAP.
It has been also found that the feasible CTA window is affected
by many factors, such as a previous CTA or the position of
the top of descent. Moreover, minimum fuel trajectories almost
correspond to those trajectories that minimise the time of arrival
at the metering fix for the given initial conditionPeer ReviewedPostprint (published version
Three-body forces and proton-rich nuclei
We present the first study of three-nucleon (3N) forces for proton-rich
nuclei along the N=8 and N=20 isotones. Our results for the ground-state
energies and proton separation energies are in very good agreement with
experiment where available, and with the empirical isobaric multiplet mass
equation. We predict the spectra for all N=8 and N=20 isotones to the proton
dripline, which agree well with experiment for 18Ne, 19Na, 20Mg and 42Ti. In
all other cases, we provide first predictions based on nuclear forces. Our
results are also very promising for studying isospin symmetry breaking in
medium-mass nuclei based on chiral effective field theory.Comment: 5 pages, 4 figures, minor changes, published versio
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