311 research outputs found
Quantum Distillation Of Position Entanglement With The Polarization Degrees Of Freedom
Sources of entangled photon pairs using two parametric down-converters are
capable of generating interchangeable entanglement in two different degrees of
freedom. The connection between these two degrees of freedom allows the control
of the entanglement properties of one, by acting on the other degree of
freedom. We demonstrate experimentally, the quantum distillation of the
position entanglement using polarization analyzers.Comment: Submitted for publication in Optics Communication
Image formation by manipulation of the entangled angular spectrum
We demonstrate theoretical and experimentally how it is possible to
manipulate an entangled angular spectrum of twin beams, in order to reconstruct
correlated images with coincidence detection. The entangled angular spectrum
comes from the pump and the image is obtained only if signal and idler are
properly treated.Comment: Submitted for publication in Optics Communication
Two-species percolation and Scaling theory of the metal-insulator transition in two dimensions
Recently, a simple non-interacting-electron model, combining local quantum
tunneling via quantum point contacts and global classical percolation, has been
introduced in order to describe the observed ``metal-insulator transition'' in
two dimensions [1]. Here, based upon that model, a two-species-percolation
scaling theory is introduced and compared to the experimental data. The two
species in this model are, on one hand, the ``metallic'' point contacts, whose
critical energy lies below the Fermi energy, and on the other hand, the
insulating quantum point contacts. It is shown that many features of the
experiments, such as the exponential dependence of the resistance on
temperature on the metallic side, the linear dependence of the exponent on
density, the scale of the critical resistance, the quenching of the
metallic phase by a parallel magnetic field and the non-monotonic dependence of
the critical density on a perpendicular magnetic field, can be naturally
explained by the model.
Moreover, details such as the nonmonotonic dependence of the resistance on
temperature or the inflection point of the resistance vs. parallel magnetic are
also a natural consequence of the theory. The calculated parallel field
dependence of the critical density agrees excellently with experiments, and is
used to deduce an experimental value of the confining energy in the vertical
direction. It is also shown that the resistance on the ``metallic'' side can
decrease with decreasing temperature by an arbitrary factor in the degenerate
regime ().Comment: 8 pages, 8 figure
Application of phasor measurement units for monitoring power system dynamic performance
This Working Group is a sequel to a previous working group on Wide Area Monitoring and Control for Transmission Capability Enhancement, which published the Technical Brochure 330 in 2007. Since then the synchrophasor technology has advanced rapidly and many utilities around the world have installed hundreds of PMUs in their networks. In this Technical Brochure, we look at the current state of the technology and the extent to which it has been used in the industry. As the technology has matured, it is also important to understand the communication protocols used in synchrophasor networks and their relevant cyber-security issues. These concerns are briefly discussed in the brochure. The applications of Phasor Measurement Units (PMU) measurements reported here are divided into three categories: (a) applications already installed in utility networks, (b) applications that are well-tested, but not yet installed, and (c) applications that are beneficial to the industry, but not fully developed yet. The most common and mature applications are wide area monitoring, state estimation, and model validation. Out of these three applications, wide area monitoring is well established in the industry. The protection and control applications are emerging as evident from the reported examples. The experience of using remote synchrophasor measurements as feedback control signals is not widely reported by the industry. In parallel to this Working Group, Study Committee B5 had a Working Group on “Wide area protection and control technologies.” The Technical Brochure 664 published by this Working Group in September 2016 reviews synchrophasor technology and discusses the industry experience with wide area protection and control. The North American synchrophasor Initiative (NASPI) is another technical group that has gathered and reported a wide range of PMU experiences of industry and researchers. In summary, the field-tested applications presented in this Technical Brochure are a testimony to the confidence of utilities in the synchrophasor technology. The progress in state estimation techniques indicates that synchrophasor measurements will become a standard part of energy management and security assessment systems in the near future
A Western single-center experience with endoscopic submucosal dissection for early gastrointestinal cancers
Endoscopic submucosal dissection (ESD) has gained worldwide acceptance as a treatment for early gastrointestinal cancers (EGICs). However, the management of these tumors in the Western world is still mainly surgical. Our aim was to evaluate the safety and feasibility of ESD at a European center. Based on the knowledge transferred by one of the most experienced Japanese institutions, we conducted a pilot study on 25 consecutive patients with EGICs located in the esophagus (n = 3), stomach (n = 7), duodenum (n = 1), and colon (n = 14) at our tertiary center over a 2-year-period. The main outcome measurements were complete (R0) resection, as well as en-bloc resection and the management of complications. The R0 and en-bloc resection rates were 100% and 84%, respectively. There were three cases of bleeding and five cases of perforation. With a median follow up of 18 months, two recurrences were observed. We conclude that ESD for early esophageal and gastric cancers is feasible and effective, while colonic ESD requires more expertise
Photosynthesis, stomatal conductance and leaf water potential in crabwood (Carapa guianensis)
Leaf water potential is one of the most important factors affecting stomatal functioning. The aim of this study was to assess the effect of variation in diurnal irradiance and vapour pressure deficit on photosynthesis (A), stomatal conductance (g s) and leaf water potential (psi) in Carapa guianensis (Aubl.). Data were collected from 07:00 to 17:00 h. Photosynthetic rates reached a maximum (2.5 µmol m-2 s-1) at 10:00 h, thereafter declined to a minimum of 1 µmol m-2 s-1 at 16:00 h. Stomatal conductance oscillated during the day, from 0.04 mol m-2 s-1 (at midday) to 0.02.mol.m-2.s-1 at the end of the afternoon. Leaf water potential was higher early in the morning (-0.3 MPa) and lower (-0.75 MPa) at mid-afternoon (14:30 -15:00 h). After reaching a minimum, psi increased up to -0.64 MPa at sunset. Photosynthetic rates increased linearly as a function of g s (P < 0.01). Also there was a positive relationship between psi and g s (P< 0.01). Photosynthetic rates declined during the day after reaching a peak early in the morning, which makes clear that environmental factors that influence psi greatly affect carbon assimilation of C. guianensis.O potencial hĂdrico da folha Ă© um dos fatores mais importantes que afetam o funcionamento dos estĂ´matos. O objetivo deste trabalho foi avaliar o efeito da variação diurna na irradiância e dĂ©ficit de pressĂŁo de vapor (DPV) na fotossĂntese (A), condutância estomática (g s) e potencial hĂdrico da folha (psi) em Carapa guianensis (Aubl.). Os dados foram coletados de 07:00 Ă s 17:00 h. A taxa fotossintĂ©tica atingiu um valor máximo (2,5 µmol m-2 s-1) Ă s 10:00 h, depois declinou atĂ© atingir um mĂnimo de 1 µmolm-2 s-1 Ă s 16:00 h. A condutância estomática oscilou durante o dia, de 0,04 molm-2s-1 (ao meio dia) para 0,02 molm-2s- 1 no final da tarde. O potencial hĂdrico da folha foi máximo nas primeiras horas do dia (-0,3 MPa) e mĂnimo (-0,75 MPa) no meio da tarde (14:30 a 15:00 h). ApĂłs ter alcançado um mĂnimo, o psi aumentou atĂ© -0,64 MPa no fim da tarde. A taxa fotossintĂ©tica aumentou linearmente em função do g s (P < 0,01). TambĂ©m houve uma relação positiva entre psi e g s (P < 0,01). A taxa fotossintĂ©tica declinou durante o dia apĂłs ter alcançado um pico no inĂcio da manhĂŁ, demonstrando que os fatores ambientais que afetam o psi tĂŞm efeito significativo na assimilação do carbono de C. guianensis
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