Geoarchaeological investigation of lithic resources in the central Mesa Verde region,Colorado, USA

An important question in Southwestern archaeological research is how social and economic ties between prehistoric groups changed through time. The chemical and mineralogical matching of stone tools and ceramics to source areas is one approach to addressing this question. Here we challenge the assumption that igneous rocks used for manufacturing stone tools and ceramics in the Mesa Verde region of Colorado were originally derived from the Chuska Mountains of New Mexico. Recent geological surveys suggest that small igneous features present in and around Mesa Verde National Park and Ute Mountain Ute Tribal Park contain similar lithologies and may represent a local source. We systematically visited seven of these igneous exposures and nine downstream gravel deposits, looking for geological sources and quarry sites matching the lithology of analyzed debitage from this region. Our results suggest that the ancestral Puebloans could have procured such igneous rocks as aphanitic minette and trachybasalt pottery temper from local areas. Because the trachybasalt is usually thought to have been imported from the Chuska Mountains, this discovery may require a revision of interpreted trade networks based on pottery temper and lithic raw material distinctions. © 2009 Wiley Periodicals, Inc.     

Relaxation of protostellar accretion shocks using the smoothed particle hydrodynamics

It is believed that protostellar accretion disks are formed from nearly ballistic infall of molecular matter in rotating core collapse. Collisions of this infalling matter leads to formation of strong supersonic shocks, which if they cool rapidly, result in accumulation of that material in a thin structure in the equatorial plane. Here, we investigate the relaxation time of the protostellar accretion post‐shock gas using the smoothed particle hydrodynamics (SPH). For this purpose, a one‐dimensional head‐on collision of two molecular sheets is considered, and the time evolution of the temperature and density of the post‐shock region simulated. The results show that in strong supersonic shocks, the temperature of the post‐shock gas quickly increases proportional to square of the Mach number, and then gradually decreases according to the cooling processes. Using a suitable cooling function shows that in appropriate time‐scale, the center of the collision, which is at the equatorial plane of the core, is converted to a thin dense molecular disk, together with atomic and ionized gases around it. This structure for accretion disks may justify the suitable conditions for grain growth and formation of proto‐planetary entities (© 2011 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Rest‐frame UV to optical X‐shooter spectrum of the gravitationally lensed galaxy “the 8 o'clock arc”: Dissection of its physical properties

We present the rest‐frame UV to optical spectrum of the gravitationally lensed galaxy, the “8 o'clock arc” at z = 2.735, obtained with the X‐shooter spectrograph. This is one of the rare comprehensive study of a high‐redshift star‐forming galaxy, usually not feasible due to the faintness of these objects. The spectrum of the 8 o'clock arc is rich in stellar and interstellar absorption features and in nebular emission features. Their analysis allowed us to derive most of the physical properties characterizing the galaxy. From HST images, we reconstruct the morphology of the arc in the source plane and confirm that we resolve a clump in rotation around the main core of galaxy in our X‐shooter spectrum (© 2011 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)