3,747 research outputs found
Near-field spectra of quantum well excitons with non-Markovian phonon scattering
The excitonic absorption spectrum for a disordered quantum well in presence
of exciton-acoustic phonon interaction is treated beyond the Markov
approximation. Realistic disorder exciton states are taken from a microscopic
simulation, and the deformation potential interaction is implemented. The
exciton Green's function is solved with a self energy in second order Born
quality. The calculated spectra differ from a superposition of Lorentzian
lineshapes by enhanced inter-peak absorption. This is a manifestation of pure
dephasing which should be possible to measure in near-field experiments.Comment: 8 pages, 7 figure
Observation of soliton explosions in a passively mode-locked fiber laser
Soliton explosions are among the most exotic dissipative phenomena studied in
mode-locked lasers. In this regime, a dissipative soliton circulating in the
laser cavity experiences an abrupt structural collapse, but within a few
roundtrips returns to its original quasi-stable state. In this work we report
on the first observation of such events in a fiber laser. Specifically, we
identify clear explosion signatures in measurements of shot-to-shot spectra of
an Yb-doped mode-locked fiber laser that is operating in a transition regime
between stable and noise-like emission. The comparatively long,
all-normal-dispersion cavity used in our experiments also permits direct
time-domain measurements, and we show that the explosions manifest themselves
as abrupt temporal shifts in the output pulse train. Our experimental results
are in good agreement with realistic numerical simulations based on an
iterative cavity map.Comment: 5 pages, 5 figures, submitte
Wick Theorem for General Initial States
We present a compact and simplified proof of a generalized Wick theorem to
calculate the Green's function of bosonic and fermionic systems in an arbitrary
initial state. It is shown that the decomposition of the non-interacting
-particle Green's function is equivalent to solving a boundary problem for
the Martin-Schwinger hierarchy; for non-correlated initial states a one-line
proof of the standard Wick theorem is given. Our result leads to new
self-energy diagrams and an elegant relation with those of the imaginary-time
formalism is derived. The theorem is easy to use and can be combined with any
ground-state numerical technique to calculate time-dependent properties.Comment: 9 pages, 5 figure; extended version published in Phys. Rev.
On ultrafast magnetic flux dendrite propagation into thin superconducting films
We suggest a new theoretical approach describing the velocity of magnetic
flux dendrite penetration into thin superconducting films. The key assumptions
for this approach are based upon experimental observations. We treat a dendrite
tip motion as a propagating flux jump instability. Two different regimes of
dendrite propagation are found. A fast initial stage is followed by a slow
stage, which sets in as soon as a dendrite enters into the vortex-free region.
We find that the dendrite velocity is inversely proportional to the sample
thickness. The theoretical results and experimental data obtained by a
magneto-optic pump-probe technique are compared and excellent agreement between
the calculations and measurements is found.Comment: 4 pages, 4 figure
Ending hunger in Africa prospects for the small farmer
"In contrast to widely held uncertainties about Sub-Saharan Africa's ability to meet the Millennium Development Goals (MDGs), recent successes in African smallholder farming show that agriculture could play a key role in helping the region reach those goals. African governments and the donor community have recognized this potential and have pledged to help generate agricultural progress. This policy brief considers recent trends in poverty, malnutrition, and growth; outlines some of the challenges to boosting agricultural growth; and highlights cases of agricultural success in specific countries. By learning from case studies of smallholder success and building on the new enthusiasm of African governments, donors and their African partners can ensure that agriculture's role in meeting the MDGs is fully realized." from TextMillenium Development Goals ,
Ending hunger by 2050
"To end hunger and prevent the recurrence of famine and starvation, we need to take the following steps: invest in public health, child nutrition, education, women's and girls' social status, and other components of human capital; reform public institutions and create innovative funding and partnership arrangements; change government policies at all levels to be both pro-poor and pro-growth; increase funding for scientific and technological research to boost agricultural production and efficiency; and develop specific policies and institutions to deal with environmental degradation caused by population growth. The international community, national governments, nongovernmental organizations (NGOs), and the private sector must cooperate to bring about these changes, which reach beyond redistribution programs, narrowly focused market-oriented solutions, or campaigns based solely on local self-reliance." from text
Electron-phonon coupling in the C60 fullerene within the many-body GW approach
We study the electron-phonon coupling in the C60 fullerene within the
first-principles GW approach, focusing on the lowest unoccupied t1u three-fold
electronic state which is relevant for the superconducting transition in
electron doped fullerides. It is shown that the strength of the coupling is
significantly enhanced as compared to standard density functional theory
calculations with (semi)local functionals, with a 48% increase of the
electron-phonon potential Vep. The calculated GW value for the contribution
from the Hg modes of 93 meV comes within 4% of the most recent experimental
values. The present results call for a reinvestigation of previous density
functional based calculations of electron-phonon coupling in covalent systems
in general.Comment: 4 pages, 0 figur
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