New experimental test of Bell inequalities by the use of a non-maximally entangled photon state

We report on the first realisation of a test of Bell inequalities using non-maximally entangled states. It is based on the superposition of type I parametric down conversion produced in two different non-linear crystals pumped by the same laser, but with different polarisations. We discuss the advantages and the possible developments of this configuration.Comment: accepted for publicatio

Effects of deformation in the three-body structure of 11Li

11Li is studied within a three-body model 9Li+n+n where the core is allowed to be deformed and/or excite. In particular, we include reorientation couplings and couplings between the two bound states of 9Li. Contrary to the other examples studied within this model, we find that core excitation does not affect the structure of 11Li significantly. Reorientation couplings of the deformed 9Li can change the ground state of 11Li from a predominantly two neutron s1/2^2 configuration into a p1/2^2. In addition, we see no evidence for the existence of significant d-wave strength in its ground state, as opposed to the prediction by shell model. A comparison with shell model is presented.Comment: 13 pages, 9 figure

Attentional Performance, Age and Scholastic Achievement in Healthy Children

Attentional processes in children play a critical role in daily school demands and accomplishments. Studies on the association of attentional processes with school achievement and age in healthy school children are scarce. The aim of the present study was to identify correlations between dimensions of attentional performance, scholastic achievement and age.An extensive testing battery was used to assess a wide range of attentional dimensions. A principal component analysis revealed three factors that are related to attentional performance (distractibility, lapses of attention, cognitive speed). Age was negatively associated with distractibility, lapses of attention and cognitive speed, indicating that distractibility and lapses of attention decreased with age in healthy children and resulted in lower cognitive speed.Attentional processes in healthy children should be measured in relation to distractibility, lapses of attention and cognitive speed

Rapid onset hydroxychloroquine toxicity

PURPOSE Hydroxychloroquine (HCQ) can cause irreversible damage to the retina, especially when taken over longer periods. The American Academy of Ophthalmology recommends a regimen for dosing, screening and monitoring of patients treated with HCQ. We present an unusual case of a rapid development of severe HCQ-associated-retinopathy already after 2 years after commencing HCQ treatment. METHODS Observational case report. Clinical examination, optical coherence tomography (OCT), fundus autofluorescence imaging (FAF), perimetry, full-field & multifocal electroretinography (ERG) were performed. Ancillary tests included neoplastic and paraneoplastic work-up, vitamin levels and whole exome sequencing, in order to rule out other potential causes of a panretinal degeneration. RESULTS We report on a 58-year-old woman with rheumatoid arthritis, treated initially with 200mg HCQ daily for 1 year (daily dose 3.6mg/kg), then 400mg daily for 1 year (daily dose 7.2mg/kg), and a cumulative dose of 216 g. Her medical history was otherwise unremarkable. No family history for inherited retinal conditions. She was referred due to a rapid and sudden progressive and severe concentric visual field constriction, two years after commencing HCQ treatment. CONCLUSION This case of a rapid-onset, severe panretinal degeneration shortly after start of HCQ treatment suggests underlying mechanisms and risk factors for HCQ toxicity in addition to those previously reported, and a potential need for supplementary screening tests to prevent HCQ toxicity. AAO dosing guidelines of 5 MG/KG should be strictly adhered to in patients receiving HCQ therapy

Activated Singlet Exciton Fission in a Semiconducting Polymer

Singlet exciton fission is a spin-allowed process to generate two triplet excitons from a single absorbed photon. This phenomenon offers great potential in organic photovoltaics, but the mechanism remains poorly understood. Most reports to date have addressed intermolecular fission within small-molecular crystals. However, through appropriate chemical design chromophores capable of intramolecular fission can also be produced. Here we directly observe sub-100 fs activated singlet fission in a semiconducting poly­(thienylenevinylene). We demonstrate that fission proceeds directly from the initial 1B_u exciton, contrary to current models that involve the lower-lying 2A_g exciton. In solution, the generated triplet pairs rapidly recombine and decay through the 2A_g state. In films, exciton diffusion breaks this symmetry and we observe long-lived triplets which form charge-transfer states in photovoltaic blends