Enhanced spontaneous emission rate from single InAs quantum dots in a photonic crystal nanocavity at telecom wavelengths

The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of a two dimensional photonic crystal (PhC) defect cavity with a quality factor of 15 000. By spectrally tuning the cavity mode, they induce coupling with excitonic lines. They perform a time integrated and time-resolved photoluminescence and measure an eightfold increase in the spontaneous emission rate inducing a coupling efficiency of 96%. These measurements indicate the potential of single QDs in PhC cavities as efficient single-photon emitters for fiber-based quantum information processing applications. [on SciFinder (R)

Rendering and interactive virtual prototyping

Application of virtual reality techniques to architectural design allows to decrease the conception cost by virtual prototyping . In order to make the prototype usable for the decision process, an accurate lighting simulation must be done . The important need of interactivity in the manipulation of the prototype, for virtual walk-through or for modifying the prototype, implies a time efficient lighting simulation in the virtual world . Generaly, lighting simulation used in this type of application used empirical models whose only advantage is the real-time simulation . Texture mapping is a technique widely used to increase the quality of the simulation but without reaching the needed accuracy for architectural design . The radiosity model, based on the radiative transfers theory, allows to determine the lighting of a scene in a view-independent way. This model's limitation is its complexity. Also, its use in a virtual prototyping application needs the definition of adapted evaluation method . In this paper we propose a software environment, organised around two simulation kernels - Visualisation-interaction and Lighting simulation - that allows the use of the radiosity model during the design of an architectural environment. We present more precisely the design and the implementation of the lighting simulation module, called Eclairagiste, which objective is to ensure the maximum lighting accuracy at each instant . The Eclairagiste module, defined as an entity of the virtual reality programming environment VIPER, uses a multi-resolution representation of the radiosity function and relie on resolution method derived from hierarchical radiosity.L'application des techniques de réalité virtuelle à l'architecture permet de diminuer les coûts de conception du projet par prototypage virtuel. Afin de rendre le prototype développé exploitable pour la prise de décision, une simulation convenable de l'éclairage doit être effectuée. Le besoin important d'interactivité dans la manipulation du prototype, soit pour des déplacements de l'utilisateur dans le monde virtuel, soit pour des modifications géométriques apportées à ce monde, nécessite un éclairage très rapide de la scène. Actuellement, les modèles d'éclairage utilisés, dans ce type d'application, sont des approximations empiriques des modèles physiques dont le seul avantage est la rapidité d'évaluation. Les textures sont largement utilisées pour augmenter le réalisme des scènes virtuelles mais le niveau de simulation de l'éclairage reste grossier. Le modèle de radiosité, modèle physique fondé sur l'évaluation des transferts radiatifs dans une scène, permet de déterminer, de façon indépendante du point de vue, la valeur du signal lumineux en tout point de la scène, en tenant compte de toute la scène (illumination globale). Le principal inconvénient de ce modèle étant le temps de calcul nécessaire à sa résolution, son utilisation dans une application de prototypage passe par la définition de techniques de résolution adaptées. Nous proposons dans cet article une plate-forme logicielle, organisée autour de deux noyaux de simulation - Visualisation-Interaction et Simulation de l'éclairage -, permettant d'utiliser le modèle de radiosité lors de la conception par prototypage virtuel d'environnements architecturaux. Nous présentons plus particulièrement la conception et l'implantation d'un module de simulation de l'éclairage, appelé éclairagiste, dont l'objectif est d'assurer le réalisme maximum à chaque instant. Le module éclairagiste, définit comme une entité de l'environnement de programmation d'applications de réalité virtuelle VIPER, utilise une modélisation multi-échelle de la radiosité et repose sur une méthode de résolution dérivée de la radiosité hiérarchique

Tunable magnetic exchange interactions in manganese-doped inverted core/shell ZnSe/CdSe nanocrystals

Magnetic doping of semiconductor nanostructures is actively pursued for applications in magnetic memory and spin-based electronics. Central to these efforts is a drive to control the interaction strength between carriers (electrons and holes) and the embedded magnetic atoms. In this respect, colloidal nanocrystal heterostructures provide great flexibility via growth-controlled `engineering' of electron and hole wavefunctions within individual nanocrystals. Here we demonstrate a widely tunable magnetic sp-d exchange interaction between electron-hole excitations (excitons) and paramagnetic manganese ions using `inverted' core-shell nanocrystals composed of Mn-doped ZnSe cores overcoated with undoped shells of narrower-gap CdSe. Magnetic circular dichroism studies reveal giant Zeeman spin splittings of the band-edge exciton that, surprisingly, are tunable in both magnitude and sign. Effective exciton g-factors are controllably tuned from -200 to +30 solely by increasing the CdSe shell thickness, demonstrating that strong quantum confinement and wavefunction engineering in heterostructured nanocrystal materials can be utilized to manipulate carrier-Mn wavefunction overlap and the sp-d exchange parameters themselves.Comment: To appear in Nature Materials; 18 pages, 4 figures + Supp. Inf

Towards a LED based on a photonic crystal nanocavity for single photon sources at telecom wavelength

A fundamental step towards achieving an "on demand" single photon source would be the possibility of electrical pumping for a single QD and thus the integration of such a device in an opto-electronic circuit. In this work we describe the fabrication process and preliminary results of a Light Emitting Diode (LED) to be integrated with a PhC nanocavity at telecom wavelength. We demonstrate the possibility of an effective electric pumping of the QDs embedded into the membrane by contacting the n-doped and p-doped layers of the thin membrane, which allows the fabrication of a PhC nanocavity on it. (C) 2007 Elsevier B.V. All rights reserved

Effects of GnRH vaccination in wild and captive African Elephant bulls (Loxodonta africana) on reproductive organs and semen quality

OBJECTIVES: Although the African elephant (Loxodonta africana) is classified as endangered by the International Union for Conservation of Nature (IUCN), in some isolated habitats in southern Africa, contraception is of major interest due to local overpopulation. GnRH vaccination has been promoted as a non-invasive contraceptive measure for population management of overabundant wildlife. We tested the efficacy of this treatment for fertility control in elephant bulls. METHODS: In total, 17 male African elephants that were treated with a GnRH vaccine were examined in two groups. In the prospective study group 1 (n = 11 bulls, ages: 8±36 years), semen quality, the testes, seminal vesicles, ampullae and prostate, which were all measured by means of transrectal ultrasound, and faecal androgen metabolite concentrations were monitored over a three-year period. Each bull in the prospective study received 5 ml of Improvac® (1000 μg GnRH conjugate) intramuscularly after the first examination, followed by a booster six weeks later and thereafter every 5±7 months. In a retrospective study group (group 2, n = 6, ages: 19±33 years), one examination was performed on bulls which had been treated with GnRH vaccine for 5±11 years. RESULTS: In all bulls of group 1, testicular and accessory sex gland sizes decreased significantly after the third vaccination. In six males examined prior to vaccination and again after more than five vaccinations, the testis size was reduced by 57.5%. Mean testicular height and length decreased from 13.3 ± 2.6 cm x 15.2 ± 2.8 cm at the beginning to 7.6 ± 2.1 cm x 10.2 ± 1.8 cm at the end of the study. Post pubertal bulls (>9 years, n = 6) examined prior to vaccination produced ejaculates with viable spermatozoa (volume: 8±175 ml, sperm concentration: 410-4000x106/ml, total motility: 0±90%), while after 5±8 injections, only 50% of these bulls produced ejaculates with a small number of immotile spermatozoa. The ejaculates of group 2 bulls (vaccinated >8 times) were devoid of spermatozoa. Faecal androgen metabolite concentrations measured in captive males decreased significantly after the fourth vaccination. None of the males entered musth during the treatment period. CONCLUSIONS: Our results showed a marked decrease in semen quality, testicle and secondary sex gland sizes following repeated GnRH vaccinations. After 2±4 years of continuous treatment every 5±7 months, the effects were similar to surgical castration.ISIScopu