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. Post-starburst galaxies (PSBs) have quenched (significant decline in star formation rate) both recently and rapidly (≲Gyr). They are thus promising in providing insights into activities that are happening at the early stage of quenching. While studies have suggested that black hole feedback in the form of active galactic nuclei (AGN) and outflows play important roles in quenching, the details of how they impact the host galaxies and their interplay with other quenching mechanisms are still not fully understood. We find that PSBs commonly show signatures of AGN activity but they appear to be weak and/or heavily obscured. These AGN might be able to drive outflows but they are likely not strong enough to remove gas from the host galaxy. Direct evidence of AGN quenching the star formation of the host galaxy is still missing and AGN likely quench by disturbing rather than expelling the gas.
In the current work, we study a stochastic parabolic problem. The presented problem is motivated by the study of an idealised electrically actuated MEMS (Micro-Electro-Mechanical System) device in the case of random fluctuations of the potential difference, a parameter that actually controls the operation of MEMS device. We first present the construction of the mathematical model, and then, we deduce some local existence results. Next for some particular versions of the model, relevant to various boundary conditions, we derive quenching results as well as estimations of the probability for such singularity to occur. Additional numerical study of the problem in one dimension follows, which also allows the further investigation the problem with respect to its quenching behaviour.
Solid solution 0.94Na0.5Bi0.5TiO3–6BaTiO3 (NBT–6BT) is considered to be one kind of lead-free piezoelectric materials with excellent electrical properties due to the existence of morphotropic phase boundary (MPB). However, its relatively lower depolarization temperature is a long-standing bottleneck for the application of NBT-based piezoelectric ceramics. In this work, the influence of thermal quenching on depolarization temperature and electrical properties of rare-earth Ho-doped NBT–6BT lead-free ceramics was investigated. It was shown that the relative high piezoelectric performance, as well as an improvement of depolarization temperature (Td), can be realized by thermal quenching. The results showed that the quenching process induced high concentration of oxygen vacancy, giving rise to the change of octahedra mode and enhanced lattice distortion, which is benefit to the temperature stability of piezoelectric and ferroelectric properties. Furthermore, up-conversion photoluminescence (PL) of Ho-doped NBT–6BT could be effectively tuned by the introduction of oxygen vacancy, suggesting a promising potential in optical–electrical multifunctional devices.
This paper concerns the quenching phenomena of a reaction–diffusion equation $u_{t}=u_{xx}+1/(1-u)$ in a one dimensional varying domain $[g(t),h(t)]$, where $g(t)$ and $h(t)$ are two free boundaries evolving by a Stefan condition. We prove that all solutions will quench regardless of the choice of initial data, and we also show that the quenching set is a compact subset of the initial occupying domain and that the two free boundaries remain bounded.
In order to achieve the truncated amplified spontaneous emission pulse, the method of timeshare quenching was proposed in this paper. When the original pulse of the amplified spontaneous emission is 16.72 ns, the obtained best results show that the pulse width is truncated to 2.48 ns, and the shortening ratio is approximately 6.7. By analyzing the 12 acquisition results of the continuous amplified spontaneous emission truncation, 2.59 ± 0.05 ns amplified spontaneous emission pulse was obtained. The experimental results showed that the stability of the truncated pulse width is well. This method is applicable to truncate the ASE pulse in KrF excimer laser. It is significantly to the research of the inertial confinement fusion.
Doping of a heteroatom such as nitrogen in carbon nanomaterials provides a means to tailor their electronic properties and chemical reactivities. In this article, we present simple methods to synthesize carbon quantum dots (CQDs) with high nitrogen doping content (18–22%), involving the reaction of glucose in the presence of urea under hydrothermal conditions or by microwave irradiation. The N-doped carbon quantum dots (N-CQDs) show high aqueous solubility and tunable photoluminescence (PL). Interaction of N-CQDs with exfoliated graphene or dimethylaniline quenches PL. Interaction of N-doped as well as undoped C-dots with electron-donating tetrathiafulvalene and electron-withdrawing tetracyanoethylene has been examined. The intense blue PL of CQDs has been exploited to produce white light by mixing the CQDs with yellow light emitting ZnO nanoparticles or graphene oxide. The N-doped CQDs exhibit superior photocatalytic activity compared to pristine CQDs.
Over the past few years several technical efforts have been focused on continuous improvement of quench and tempered product at ArcelorMittal Burns Harbor plate mill facility with particular attention being given to optimization of the flatness of quenched product. Incremental improvement in quench line equipment and practices is being aided by computer-based modelling tools and specialized instrumentation. The paper describes the development of different tools used to control flatness after quench and tempering units. The detailed description of a 3D model designed to predict distortion such as edge waves, center buckles, longbows and crossbows during quenching is presented. The model developed with Abaqus is able to predict the evolution of plate temperature, thermal stresses, strains, and distortions during cooling. The water cooling system is represented by top and bottom movable surfaces where a heat flux depending on width, length and temperature is applied. The effect of phase transformation is approximated by a variation of the plate thermal expansion coefficient.
Cet article décrit la stratégie expérimentale développée afin d'améliorer la modélisation des écoulements diphasiques liquide-vapeur présents lors de la mise en froid de moteurs-fusée par des fluides cryogéniques en micro pesanteur. Une analyse de similitude est faite afin de déterminer les nombres adimensionnels pertinents pour le dimensionnement d'une expérience similaire à ces écoulements. Une analyse bibliographique sur les expériences menées en micro pesanteur, la température de remouillage et le flux lors de l'ébullition en film montre le manque de modèles adaptés à la micro gravité. Des résultats de "quenching" d'un tube de pyrex par du FC72 lors de vols paraboliques sont présentés, en particulier l'impact du niveau de gravité et du sous refroidissement sur la température de remouillage et le flux lors de l'ébullition en film. Les résultats montrent une baisse du transfert thermique en micro pesanteur et une augmentation de la température de remouillage.
Gaseous detonation is a phenomenon with very complicated dynamics which
has been studied extensively by physicists, mathematicians and engineers for many years.
Despite many efforts the problem is far from a complete resolution. Recently the theory
of subsonic detonation that occurs in highly resistant porous media was proposed in [4].
This theory provides a model which is realistic, rich and suitable for a mathematical study.
In particular, the model is capable of describing the transition from a slowly propagating
deflagration wave to the fast detonation wave. This phenomena is known as a deflagration
to detonation transition and is one of the most challenging issues in combustion theory. In
this paper we will present some recent mathematical results concerning initiation of reaction
in porous media, existence and uniqueness of traveling fronts, quenching and propagation.
Cet article porte sur la modélisation des culasses aluminium de moteurs diesel HDI en vue de prédire leur tenue en fatiguepolycyclique. Celles-ci, avant d'être frettées, serrées sur le bloc moteur et utilisées en service, subissent un traitement thermique (trempe et revenu) afin d'améliorer leurs propriétés mécaniques. Lors de ce procédé d'importantescontraintes résiduelles sont générées. Leur modélisation est nécessaire pour obtenir des résultats numériques prédictifs. Une première difficulté vient de la modélisation des échanges thermiques. Pour cela, le choix d'une fonction analytique simple pour le coefficient d'échange H = f(Tparoi), suivi de l'optimisation des différents paramètres, a permis demodéliser les courbes de refroidissement. Une fois l'histoire thermique de la culasse modélisée, un calcul mécanique élastoplastique permet dedéterminer les contraintes résiduelles. Celles-ci, fortement de traction dans la zone à risque, sont défavorables à la tenue à la fatigue polycyclique de la pièce dans le cas de la trempe à l'eau. La prise en compte de l'état résiduel de fin de traitement thermique dans la filière de dimensionnement à la fatigue polycyclique permet alors de caractériser les zones à risque expérimentalement observées.
A mechanistic model was developed, to simulate the main facets of photoinhibition in phytoplankton.
Photoinhibition is modelled as a time dependent decrease in the initial slope of a photosynthesis versus irradiance
curve, related to D1 (photosystem II reaction centre protein) damage and non-photochemical quenching. The
photoinhibition model was incorporated into an existing ammonium-nitrate nutrition interaction model capable
of simulating photoacclimation and aspects of nitrogen uptake and utilization. Hence the current model can
simulate the effects of irradiance on photosynthesis from sub-saturating to inhibitory photon flux densities, during
growth on different nitrogen sources and under nutrient stress. Model output conforms well to experimental data,
allowing the extent of photoinhibition to be predicted under a range of nutrient and light regimes. The ability of
the model to recreate the afternoon depression of photosynthesis and the enhancement of photosynthesis during
fluctuating light suggests that these two processes are related to photoinhibition. The model may be used to predict
changes in biomass and/or carbon fixation under a wide range of oceanographic situations, and it may also help
to explain the progression to dominance of certain algal species, and bloom formation under defined irradiance and
nutrient conditions.
In established methods for analyzing ribozyme kinetics,
radiolabeled RNA substrates are primarily used. Each data
point requires the cumbersome sampling, gel electrophoretic
separation, and quantitation of reaction products, apart
from the continuous loss of substrate by radioactive decay.
We have used stable, double fluorescent end-labeled RNA
substrates. Fluorescence of one fluorophore is quenched
by intramolecular energy transfer (FRET). Upon substrate
cleavage, both dyes become separated in two RNA products
and fluorescence is restored. This can be followed in real
time and ribozyme reactions can be analyzed under multiple
(substrate excess) and under single (ribozyme excess) turnover
conditions. A detailed comparison of unlabeled, single,
and double fluorescent-labeled RNAs revealed moderate kinetic
differences. Results with two systems, hammerhead ribozymes
in I/II (small ribozyme, large substrate) and in I/III
format (large ribozyme, small substrate), are reported.
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