56 research outputs found
Kandungan Unsur Hara dan Bakteri Patogenik dalam Substrat dan Lumpur Buangan Biogas Feses Sapi Bali
Nutrients Content and Pathogenic Bacteria in Subtrates and Bio Gas-Sludge of Bali Cattle's Feces. The biogas processing is one approach to overcome this issue. Bali cattle's feces produce serious impacts on pollution and could be a source of infectious disease when treating worst. The objective of current research was to evaluate the nutrient content and pathogenic bacteria within biogas sludge from Bali cattle feces. The research was conducted from January to September 2014. The samples used were substrate and biogas sludge of Bali cattle feces taken from 10 biogas installations owned by farmers in Setanggor village Central Lombok District. The content of nutrient within the biogas sludge was analyzed from the samples using Atomic Absorption Spectrophotometer. Counting the number of colony method (Plate Count) in Nutrient Agar media was used to examine the total of bacteria colony and the Most Probable Number (MPN) in Mc. Conkey Agar media was used for counting the total of Coliform bacteria. The result showed that biogas sludge of Bali cattle feces contained nutrients such as N, P, K, Na, Ca, Mg, Fe, Mn, Cu, Zn and organic C. The organic C nutrient was the highest (42.64%). It also proves that the biogas digester process can reduce the total bacteria up to 1.49% (P>0.05) and decrease the total of Coliform bacteria up to 38.2% (P>0.05). High nutrient content and drop in number of total pathogenic bacteria and Coliform bacteria could create the biogas sludge from Bali cattle feces that was environmentally safe and directly used as an organic fertilizer to substitute chemical fertilizers
Концепції мовної гри як теоретичні засади організації навчально-ігрової діяльності
У статті розглянуто лінгвофілософські й лінгвістичні концепції мовної гри як підґрунтя організації навчально-ігрової діяльності в системі українськомовної освіти. На основі наукового осмислення окреслено зміст понять "гра", "навчально-ігрова діяльність", "мовна гра". Шляхом аналізу наукової літератури й синтезу теоретичних ідей визначено принципи побудови й реалізації навчально-методичної системи, спрямованої на формування мовної особистості школяра в навчально-ігровій діяльності
Detection and estimation of magnetization induced resonances in unilateral nuclear magnetic resonance (NMR) sensors
In this work a systematic identification of factors contributing to signal ringing in unilateral nuclear magnetic resonance (NMR) sensors is conducted. Resonant peaks that originate due to multiple factors such as NMR, electrical, magneto-acoustic, core material response, eddy currents and other factors were observed. The peaks caused by the measurement system or electrical resonances and induced magnet vibrations are further analyzed. They appear in every measurement and are considered as interference to signals received from the magnetic core. Forming a distinction between different peaks is essential in identifying the primary contribution to the captured resonant signal. The measurements for the magnetic core indicate that the magnetization induced resonant peaks of the core have relatively higher amplitudes and shorter decay times at low frequencies
Optomechanical and photothermal interactions in suspended photonic crystal membranes
We present here an optomechanical system fabricated with novel stress management techniques that allow us to suspend an ultrathin defect-free silicon photonic-crystal membrane above a Silicon-on-Insulator (SOI) substrate with a gap that is tunable to below 200 nm. Our devices are able to generate strong attractive and repulsive optical forces over a large surface area with simple in- and out- coupling and feature the strongest repulsive optomechanical coupling in any geometry to date (g[subscript OM]/2π ≈ −65 GHz/nm). The interplay between the optomechanical and photo-thermal-mechanical dynamics is explored, and the latter is used to achieve cooling and amplification of the mechanical mode, demonstrating that our platform is well-suited for potential applications in low-power mass, force, and refractive-index sensing as well as optomechanical accelerometry.United States. Defense Advanced Research Projects Agency. (Contract N66001-09-1-2070-DOD)National Science Foundation (U.S.) (CAREER Grant
Analysis of ringing effects due to magnetic core materials in pulsed nuclear magnetic resonance circuits
This work presents investigations and detailed analysis of ringing in a non-resonant pulsednuclear magnetic resonance (NMR) circuit. Ringing is a commonly observed phenomenon in high power switching circuits. The oscillations described as ringing impede measurements in pulsed NMR systems. It is therefore desirable that those oscillations decay fast. It is often assumed that one of the causes behind ringing is the role of the magnetic core used in theantenna (acting as an inductive load). We will demonstrate that an LRC subcircuit is also set-up due to the inductive load and needs to be considered due to its parasitic effects. It is observed that the parasitics associated with the inductive load become important at certain frequencies. The output response can be related to the response of an under-damped circuit and to the magnetic core material. This research work demonstrates and discusses ways of controlling ringing by considering interrelationships between different contributing factors
Enhanced Single Photon Emission from a Diamond-Silver Aperture
We have developed a scalable method for coupling single color centers in
diamond to plasmonic resonators and demonstrated Purcell enhancement of the
single photon emission rate of nitrogen-vacancy (NV) centers. Our structures
consist of single nitrogen-vacancy (NV) center-containing diamond nanoposts
embedded in a thin silver film. We have utilized the strong plasmon resonances
in the diamond-silver apertures to enhance the spontaneous emission of the
enclosed dipole. The devices were realized by a combination of ion implantation
and top-down nanofabrication techniques, which have enabled deterministic
coupling between single NV centers and the plasmonic modes for multiple devices
in parallel. The plasmon-enhanced NV centers exhibited over six-fold
improvements in spontaneous emission rate in comparison to bare nanoposts and
up to a factor of 3.6 in radiative lifetime reduction over bulk samples, with
comparable increases in photon counts. The hybrid diamond-plasmon system
presented here could provide a stable platform for the implementation of
diamond-based quantum information processing and magnetometry schemes.Comment: 16 pages, 4 figure
Space weather studies of IONOLAB group
IONOLAB is an interdisciplinary research group dedicated for handling the challenges of near earth environment on communication, positioning and remote sensing systems. IONOLAB group contributes to the space weather studies by developing state-of-the-art analysis and imaging techniques. On the website of IONOLAB group, www.ionolab.org, four unique space weather services, namely, IONOLAB-TEC, IRI-PLAS-2015, IRI-PLAS-MAP and IRI-PLAS-STEC, are provided in a user friendly graphical interface unit. Newly developed algorithm for ionospheric tomography, IONOLAB-CIT, provides not only 3-D electron density but also tracking of ionospheric state with high reliability and fidelity. The algorithm for ray tracing through ionosphere, IONOLAB-RAY, provides a simulation environment in all communication bands. The background ionosphere is generated in voxels where IRI-Plas electron density is used to obtain refractive index. One unique feature is the possible update of ionospheric state by insertion of Total Electron Content (TEC) values into IRI-Plas. Both ordinary and extraordinary paths can be traced with high ray and low ray scenarios for any desired date, time and transmitter location. 2-D regional interpolation and mapping algorithm, IONOLAB-MAP, is another tool of IONOLAB group where automatic TEC maps with Kriging algorithm are generated from GPS network with high spatio-temporal resolution. IONOLAB group continues its studies in all aspects of ionospheric and plasmaspheric signal propagation, imaging and mapping. © 2016 IEEE
Light Localization Effect on the Optical Properties of Opals Doped with Gold Nanoparticles
Microstructured magnetic materials for RF flux guides in magnetic resonance imaging
Abstract: We present novel metamaterial structures based upon various planar wallpaper groups, in both hexagonal and square unit cells. An investigation of metamaterials consisting of one, two, and three unique sub-lattices with resonant frequencies in the terahertz (THz) was performed. We describe the theory, perform simulations, and conduct experiments to characterize these multiple element metamaterials. A method for using these new structures as a means for bio / chemical hazard detection, as well as electromagnetic signature control is proposed
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