2,353 research outputs found

    Are the majority of Sun-like stars single?

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    It has recently been suggested that, in the field,  ⁣ ⁣56%\sim\!\!56\% of Sun-like stars (0.8MM1.2M0.8\,{\rm M}_{_\odot}\lesssim M_\star\lesssim 1.2\,{\rm M}_{_\odot}) are single. We argue here that this suggestion may be incorrect, since it appears to be based on the multiplicity frequency of systems with Sun-like primaries, and therefore takes no account of Sun-like stars that are secondary (or higher-order) components in multiple systems. When these components are included in the reckoning, it seems likely that only  ⁣46%\sim\!46\% of Sun-like stars are single. This estimate is based on a model in which the system mass function has the form proposed by Chabrier, with a power-law Salpeter extension to high masses; there is a flat distribution of mass ratios; and the probability that a system of mass MM is a binary is 0.50+0.46log10 ⁣(M/M)\,0.50 + 0.46\log_{_{10}}\!\left(M/{\rm M}_{_\odot}\right)\, for 0.08MM12.5M\,0.08\,{\rm M}_{_\odot}\leq M\leq 12.5\,{\rm M}_{_\odot}, 0\,0\, for M<0.08M\,M<0.08\,{\rm M}_{_\odot}, and 1\,1\, for M>12.5M\,M>12.5\,{\rm M}_{_\odot}. The constants in this last relation are chosen so that the model also reproduces the observed variation of multiplicity frequency with primary mass. However, the more qualitative conclusion, that a minority of Sun-like stars are single, holds up for virtually all reasonable values of the model parameters. Parenthetically, it is still likely that the majority of {\it all} stars in the field are single, but that is because most M Dwarfs probably are single.Comment: 6 pages. Accepted by MNRA

    On the effects of solenoidal and compressive turbulence in prestellar cores

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    We present the results of an ensemble of SPH simulations that follow the evolution of prestellar cores for 0.2Myr0.2\,{\rm Myr}. All the cores have the same mass, and start with the same radius, density profile, thermal and turbulent energy. Our purpose is to explore the consequences of varying the fraction of turbulent energy, δsol\delta_\mathrm{sol}, that is solenoidal, as opposed to compressive; specifically we consider δsol=1,2/3,1/3,1/9  and  0\delta_\mathrm{sol}=1,\,2/3,\,1/3,\,1/9\;{\rm and}\;0. For each value of δsol\delta_\mathrm{sol}, we follow ten different realisations of the turbulent velocity field, in order also to have a measure of the stochastic variance blurring any systematic trends. With low δsol(< ⁣1/3)\delta_\mathrm{sol}(<\!1/3) filament fragmentation dominates and delivers relatively high mass stars. Conversely, with high values of δsol(> ⁣1/3)\delta_\mathrm{sol}(>\!1/3) disc fragmentation dominates and delivers relatively low mass stars. There are no discernible systematic trends in the multiplicity statistics obtained with different δsol\delta_\mathrm{sol}.Comment: 9 pages. Accepted by MNRA

    Q+\mathcal{Q}^{+}: Characterising the structure of young star clusters

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    Many young star clusters appear to be fractal, i.e. they appear to be concentrated in a nested hierarchy of clusters within clusters. We present a new algorithm for statistically analysing the distribution of stars to quantify the level of sub-structure. We suggest that, even at the simplest level, the internal structure of a fractal cluster requires the specification of three parameters. (i) The 3D fractal dimension, D\mathcal{D}, measures the extent to which the clusters on one level of the nested hierarchy fill the volume of their parent cluster. (ii) The number of levels, L\mathcal{L}, reflects the finite ratio between the linear size of the large root-cluster at the top of the hierarchy, and the smallest leaf-clusters at the bottom of the hierarchy. (iii) The volume-density scaling exponent, C=dln[δn]/dln[L]\mathcal{C}=-\textrm{d}\ln[\delta n]/\textrm{d}\ln[L] measures the factor by which the excess density, δn\delta n, in a structure of scale LL, exceeds that of the background formed by larger structures; it is similar, but not exactly equivalent, to the exponent in Larson's scaling relation between density and size for molecular clouds. We describe an algorithm which can be used to constrain the values of (D,L,C)({\cal D},{\cal L},{\cal C}) and apply this method to artificial and observed clusters. We show that this algorithm is able to reliably describe the three dimensional structure of an artificial star cluster from the two dimensional projection, and quantify the varied structures observed in real and simulated clusters.Comment: Accepted by MNRA

    Mwpd: A Duration-Amplitude Procedure for Rapid Determination of Earthquake Magnitude and Tsunamigenic Potential from P Waveforms

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    We present a duration-amplitude procedure for rapid determination of a moment magnitude, Mwpd, for large earthquakes using P-wave recordings at teleseismic distances. Mwpd can be obtained within 20 minutes or less after the event origin time as the required data is currently available in near-real time. The procedure determines apparent source durations, T0, from high-frequency, P-wave records, and estimates moments through integration of broadband displacement waveforms over the interval tP to tP+T0, where tP is the P arrival time. We apply the duration-amplitude methodology to 79 recent, large earthquakes (Global Centroid- Moment Tensor magnitude, MwCMT, 6.6 to 9.3) with diverse source types. The results show that a scaling of the moment estimates for interplate thrust and possibly tsunami earthquakes is necessary to best match MwCMT. With this scaling, Mwpd matches MwCMT typically within ±0.2 magnitude units, with a standard deviation of σ=0.11, equaling or outperforming other approaches to rapid magnitude determination. Furthermore, Mwpd does not exhibit saturation; that is, for the largest events, Mwpd does not systematically underestimate MwCMT. The obtained durations and duration-amplitude moments allow rapid estimation of an energy-to-moment parameter Θ* used for identification of tsunami earthquakes. Our results show that Θ* ≤ -5.7 is an appropriate cutoff for this identification, but also show that neither Θ* nor Mw is a good indicator for tsunamigenic events in general. For these events we find that a reliable indicator is simply that the duration T0 is greater than about 50 sec. The explicit use of the source duration for integration of displacement seismograms, the moment scaling, and other characteristics of the duration-amplitude methodology make it an extension of the widely used, Mwp, rapid-magnitude procedure. The need for a moment scaling for interplate thrust and possibly tsunami earthquakes may have important implications for the source physics of these events

    Malawi: Orphan Children’s Project

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    Habitat for Humanity International Global Village recruits and sends volunteers to work on various construction Habitat for Humanity construction projects around the world. The village of Khobili in the Mulanje District of Malawi, Africa was selected as the location to construct three homes for villagers that had lost their homes during severe flooding. For me this was an incredible opportunity to come together with a team of other volunteers to build homes for orphans and their caretaker in a rural Malawian village. The Habitat team worked with skilled local masons to build safe, durable and comfortable houses from the foundation up. This was an extraordinary building opportunity to put my three years of Cal Poly Construction Management education to work. In addition, the families and their neighbors welcomed us into the community, and we became immersed in the daily life of their village. We were invited to see homes which were still standing, and toured the entire village of 1,000+ residents. After the Habitat volunteer team finished building the houses, local Habitat for Humanity staff provided the children with health education, legal assistance, along with community and educational support

    Tsunami early warning using earthquake rupture duration

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    Effective tsunami early warning for coastlines near a tsunamigenic earthquake requires notification within 5-15 minutes. We have shown recently that tsunamigenic earthquakes have an apparent rupture duration, T0, greater than about 50 s. Here we show that T0 gives more information on tsunami importance than moment magnitude, Mw, and we introduce a procedure using seismograms recorded near an earthquake to rapidly determine if T0 is likely to exceed T=50 or 100 s. We show that this “duration-exceedance” procedure can be completed within 3-10 min after the earthquake occurs, depending on station density, and that it correctly identifies most recent earthquakes which produced large or devastating tsunamis. This identification forms a complement to initial estimates of the location, depth and magnitude of an earthquake to improve the reliability of tsunami early warning, and, in some cases, may make possible such warning
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