1,502 research outputs found
Guidelines for fish production in long term refugee situations in Africa
These guidelines provide general advice on potential benefits and implications of promoting aquaculture in refugee settlements and local host communities, specifically in Africa. In particular, they seek to highlight issues critical for translating aquaculture support in refugee situations into sustainable benefits for target populations. Aquaculture can help improve food and nutrition security and contribute to household incomes among refugees and neighbouring communities in sites with viable supplies of inputs (seed and feed) and service provisioning (training and technical extension).
Molecules as Sources for Indistinguishable Single Photons
We report on the triggered generation of indistinguishable photons by
solid-state single-photon sources in two separate cryogenic laser scanning
microscopes. Organic fluorescent molecules were used as emitters and
investigated by means of high resolution laser spectroscopy. Continuous-wave
photon correlation measurements on individual molecules proved the isolation of
single quantum systems. By using frequency selective pulsed excitation of the
molecule and efficient spectral filtering of its emission, we produced
triggered Fourier-limited single photons. In a further step, local electric
fields were applied to match the emission wavelengths of two different
molecules via Stark effect. Identical single photons are indispensible for the
realization of various quantum information processing schemes proposed. The
solid-state approach presented here prepares the way towards the integration of
multiple bright sources of single photons on a single chip.Comment: Accepted for publication in J. Mod. Opt. This is the original
submitted versio
Single-Photon Imaging and Efficient Coupling to Single Plasmons
We demonstrate strong coupling of single photons emitted by individual
molecules at cryogenic and ambient conditions to individual nanoparticles. We
provide images obtained both in transmission and reflection, where an
efficiency greater than 55% was achieved in converting incident narrow-band
photons to plasmon-polaritons (plasmons) of a silver nanoparticle. Our work
paves the way to spectroscopy and microscopy of nano-objects with sub-shot
noise beams of light and to triggered generation of single plasmons and
electrons in a well-controlled manner
Realization of two Fourier-limited solid-state single-photon sources
We demonstrate two solid-state sources of indistinguishable single photons.
High resolution laser spectroscopy and optical microscopy were combined at T =
1.4 K to identify individual molecules in two independent microscopes. The
Stark effect was exploited to shift the transition frequency of a given
molecule and thus obtain single photon sources with perfect spectral overlap.
Our experimental arrangement sets the ground for the realization of various
quantum interference and information processing experiments.Comment: 6 page
Minimal Surfaces, Screw Dislocations and Twist Grain Boundaries
Large twist-angle grain boundaries in layered structures are often described
by Scherk's first surface whereas small twist-angle grain boundaries are
usually described in terms of an array of screw dislocations. We show that
there is no essential distinction between these two descriptions and that, in
particular, their comparative energetics depends crucially on the core
structure of their screw-dislocation topological defects.Comment: 10 pages, harvmac, 1 included postscript figure, final versio
A scanning microcavity for in-situ control of single-molecule emission
We report on the fabrication and characterization of a scannable Fabry-Perot
microcavity, consisting of a curved micromirror at the end of an optical fiber
and a planar distributed Bragg reflector. Furthermore, we demonstrate the
coupling of single organic molecules embedded in a thin film to well-defined
resonator modes. We discuss the choice of cavity parameters that will allow
sufficiently high Purcell factors for enhancing the zero-phonon transition
between the vibrational ground levels of the electronic excited and ground
states.Comment: 8 page
A planar dielectric antenna for directional single-photon emission and near-unity collection efficiency
Single emitters have been considered as sources of single photons in various
contexts such as cryptography, quantum computation, spectroscopy, and
metrology. The success of these applications will crucially rely on the
efficient directional emission of photons into well-defined modes. To
accomplish a high efficiency, researchers have investigated microcavities at
cryogenic temperatures, photonic nanowires, and near-field coupling to metallic
nano-antennas. However, despite an impressive progress, the existing
realizations substantially fall short of unity collection efficiency. Here we
report on a theoretical and experimental study of a dielectric planar antenna,
which uses a layered structure for tailoring the angular emission of a single
oriented molecule. We demonstrate a collection efficiency of 96% using a
microscope objective at room temperature and obtain record detection rates of
about 50 MHz. Our scheme is wavelength-insensitive and can be readily extended
to other solid-state emitters such as color centers and semiconductor quantum
dots
Phase Transition between the Cholesteric and Twist Grain Boundary C Phases
The upper critical temperature Tc2 for the phase transition between the
Cholesteric phase (N*) and the Twist Grain Boundary C phase with the layer
inclination tilted to the pitch axis (TGBct) in thermotropic liquid crystals is
determined by the mean field Chen-Lubensky approach. We show that the N*-TGBct
phase transition is split in two with the appearance of either the TGBA or the
TGB2q phase in a narrow temperature interval below Tc2. The latter phase is
novel in being superposed from two degenerate
TGBct phases with different (left and right) layers inclinations to the pitch
axis.Comment: Phys. Rev. E, to be publ; 24 pages, RevTeX + 3 ps figure
- âŠ