A frequency-tunable nanomembrane mechanical oscillator with embedded quantum dots

Hybrid systems consisting of a quantum emitter coupled to a mechanical oscillator are receiving increasing attention for fundamental science and potential applications in quantum technologies. In contrast to most of the presented works, in which the oscillator eigenfrequencies are irreversibly determined by the fabrication process, we present here a simple approach to obtain frequency-tunable mechanical resonators based on suspended nanomembranes. The method relies on a micromachined piezoelectric actuator, which we use both to drive resonant oscillations of a suspended Ga(Al)As membrane with embedded quantum dots and to fine tune their mechanical eigenfrequencies. Specifically, we excite oscillations with frequencies of at least 60 MHz by applying an AC voltage to the actuator and tune the eigenfrequencies by at least 25 times their linewidth by continuously varying the elastic stress state in the membranes through a DC voltage. The light emitted by optically excited quantum dots is used as sensitive local strain gauge to monitor the oscillation frequency and amplitude. We expect that our method has the potential to be applicable to other optomechanical systems based on dielectric and semiconductor membranes possibly operating in the quantum regime.Comment: 17 pages, 4 figure

Diagnostics of new species of Neotropical Tischeriidae (Lepidoptera), with the first record of Coptotriche Walshingham from South America

We describe seven new Neotropical species of Tischeriidae: Astrotischeria dondavisi Stonis & Diškus, sp. nov., A. bacchariphaga Diškus & Stonis, sp. nov., A. guatemalica Diškus & Stonis, sp. nov., A. sanjosei Stonis & Diškus, sp. nov., A. truncata Diškus & Stonis, sp. nov., Coptotriche parvisacculata Diškus & Stonis, sp. nov. and C. carmencita Stonis & Diškus, sp. nov. We report the discovery of Coptotriche Walsingham in South America and provide the following new host-plant records for the Neotropical Tischeriidae: Terminalia australis Cambess. (Combretaceae), Baccharis latifolia (Ruiz & Pav.) Pers., and B. emarginata (Ruiz & Pav.) Pers. (Asteraceae). We update the biology of Astrotischeria ochrimaculosa Diškus, Stonis & Vargas with the discovery that Wissadula (Malvaceae) is a new, verified host plant. The new species are illustrated with photographs of the adults, male and, if available, female genitalia, and the leaf mines. We expect broader distributions of tisheriid species in South America inferred from known host-plant distributions.Fil: Stonis, Jonas R.. Vytautas Magnus University; LituaniaFil: Diskus, Arunas. Vytatutas Magnus University; LituaniaFil: Remeikis, Andrius. Nature Research Centre and Baltic-American Biotaxonomy Institute; LituaniaFil: Katinas, Liliana. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. División de Plantas Vasculares; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata; ArgentinaFil: Torres, Nixon Cumbicus. Universidad Tecnica Particular de Loja; EcuadorFil: Schuster, Jack. Universidad del Valle de Guatemala; GuatemalaFil: Puplesyte Chambers, Julia. No especifíca

On model materials designed by atomic layer deposition for catalysis purposes

The aim of this work was to investigate the potential of model materials designed by atomic layer deposition toward applications in catalysis research. Molybdenum based catalysts promoted with cobalt were selected as target materials, considering their important roles in various industrial processes. Particular attention was paid to understand the growth dynamics of the ALD processes involved and further to characterize the obtained materials carefully. It was of main concern to verify the feasibility to coat porous materials by ALD with our equipment. Another ambition was to confirm the advantages of the atomic layer technique to create model materials for industrial research projects in catalysis. Thin film growth of molybdenum trioxide has been demonstrated by the atomic layer deposition technique using molybdenum-hexacarbonyl, water and ozone as precursors. The effect of different oxygen precursors on the growth mechanism of the molybdenum oxide has been assessed. The chemical composition and Mo-oxidation state in MoO3 thin films grown by ALD have been investigated by two XPS approaches, representing the bulk of the layer as well as the initial stage of film formation. A convenient process to achieve thin film model materials of MoO3 polymorphs has been proposed, describing the crystallization behavior of the thin films from the as-deposited amorphous state to the orthorhombic α-MoO3 phase. By means of combined AFM/Raman studies we have been able to relate morphology and vibration mode of α-MoO3 features. The ability to coat porous materials with our ALD equipment has been confirmed by means of coating a systematic porous structure with the current molybdenum process and a cobalt process. ALD thin film growth of cobalt oxide has been obtained using cobaltocene and ozone as precursors. Cobalt molybdate has been grown by atomic layer deposition, varying the cobalt oxide precursor. The growth dynamics of the films, their composition and crystallization have been examined, proving CoMoO4 to be the preferential composition and the excess of molybdenum to crystallize into α-MoO3. The films catalytic activity in the ammonia decomposition process is assessed at the laboratory scale. The growth dynamics have been investigated where it is evident that the different precursor chemistries affect each other’s growth. The catalytic properties of cobalt-molybdenum oxide thin films deposited by ALD on industrial alumina carriers have been studied as function of the thickness of the films. Cobalt molybdenum multilayered thin films activity has proven to increase with the thickness of the films up to a certain extend. Multilayered films show a better activity as compared with cobalt molybdate single phase films. Finally, transmission electron microscopy (TEM) characterization of copper particles on top of a zinc oxide film has been achieved by first depositing an underlayer of Al2O3, thereafter coated with zinc oxide and copper oxide thin films by ALD at low temperatures. TEM imaging of the multilayered film at 250 °C under H2 shows crystallization of the ZnO grains and reduction of the copper oxide film leading to Cu particles formation

Five new mining Lepidoptera (Nepticulidae, Bucculatricidae) from central Asia

Volume: 139Start Page: 181End Page: 19

Stigmella divina sp. n., a remarkable species from Turkmenistan and Turkey (Lepidoptera, Nepticulidae)

Volume: 140Start Page: 55End Page: 5