Chronology of the Occupation Pattern Distribution: A Case Study At The Mun River Valley Prehistoric Settlement Site, Northeast Thailand

Chronological framework can be used to identify the distribution of occupation patterns. This study was based on fourteen radiocarbon samples from the eight excavation pits at Ban Non Wat and Nong Hua Raet archaeological sites. The chronology of the cultural layers was developed using AMS radiocarbon dating to supplement existing data, specifically to examine the dating of the end of the Iron Age occupation. The objective of this study was to continue testing the premise that the end of the Iron Age on the Mun river floodplain in Northeast Thailand that is better defined as either a singular more or less contemporaneous de-population event characterized by widespread abandonment of settlements or a gradual transition from dispersing a rural settlement to more concentrated urban style of settlement. The results support the existing chronological framework of the study area and suggest that the end of the Iron Age in the Mun River valley is better defined as a gradual transition from dispersed rural settlements to a more concentrated urban style settlement. Occupation commenced at the center of the mound of Ban Non Wat during the Neolithic period, and gradually spread radially to the margin by the Iron Age. Occupation at the neighboring site of Nong Hua Raet commenced during the Iron Age period, parallel to that at Ban Non Wat.

Spatial Wind Speed Forecasting Using Artificial Neural Networks

Spatial interpolation is a commonly used technique to simulate wind speeds in areas which are devoid of such measuring devices. In this paper authors examine the applicability and efficiency of Artificial-Neural- Network (ANN) formalism aimed at interpolating wind speeds in space domain. Additionally, the effect of the correlation between the wind speed at target site and its correlated neighboring site is also examined in the present paper. Hourly wind speed data set comprising of wind speeds recorded from April 2016 to August 2018 provided by Energy Sector Management Assistance Program of World Bank is used for the study. The study is supported by including four different wind speed measuring stations in Pakistan, namely, Tando Ghulam Ali, Umer Kot, Sujawal and Sanghar. Best estimates from ANN model are obtained for Tando Ghulam Ali (MAPE= 7.37%) and worst estimates are observed forSanghar site (MAPE= 10.61%).

El sitio arqueológico de La Chincúa y la ofrenda del Plan de la Mesita, Chiapas

The archaeological group La Chincúa-Plan de la Mesita is part of a complex of sites grouped around Cerro Bernal, a hill that dominates the narrowest intermountain section of the coastal route from Chiapas toward Guatemala across the Soconusco. La Chincúa’s settlement begins during the Late Preclassic, incorporates Teotihuacan influence during the Classic, and continues on as a religious and habitation center during the Postclassic. It is during this last period that La Chincúa’s neighboring site, Plan de la Mesita, becomes an elite burial ground; the textile manufacturing objects offering here analyzed comes from this context.

Locked nucleic acid building blocks as versatile tools for advanced G-quadruplex design

A hybrid-type G-quadruplex is modified with LNA (locked nucleic acid) and 2′-F-riboguanosine in various combinations at the two syn positions of its third antiparallel G-tract. LNA substitution in the central tetrad causes a complete rearrangement to either a V-loop or antiparallel structure, depending on further modifications at the 5′-neighboring site. In the two distinct structural contexts, LNA-induced stabilization is most effective compared to modifications with other G surrogates, highlighting a potential use of LNA residues for designing not only parallel but various more complex G4 structures. For instance, the conventional V-loop is a structural element strongly favored by an LNA modification at the V-loop 3′-end in contrast with an alternative V-loop, clearly distinguishable by altered conformational properties and base-backbone interactions as shown in a detailed analysis of V-loop structures.

Электронная структура и спектры оптического поглощения золотых фуллеренов Au-=SUB=-16-=/SUB=- и Au-=SUB=-20-=/SUB=-

The electronic and optical properties of gold fullerenes are studied in the framework of the Hubbard model. The expressions of the Fourier transforms of anticommutator Green functions have been obtained for gold fullerenes Au_16 and Au_20, the poles of which determine the energy spectrum of the system under consideration. The calculations are performed for the thermodynamic means that characterize jumps of electrons from a nanosystem site to a neighboring site, the correlation functions demonstrating the possibility of existing two d electrons with oppositely oriented spin projections on the same site of the fullerenes consisting of gold atoms. The optical absorption spectra are presented. The optical absorption peaks of ions $${\text{Au}}_{{20}}^{ - }$$ and $${\text{Au}}_{{16}}^{ - }$$ correspond to a near-infrared spectral region, where the light absorption by blood or a soft tissue is vanishingly small; thus, these ions can be used as a new class of contrast improvements and phototherapeutic means for diagnostics and treatment of cancer.

Study on the effects of Ga-2N high co-doping and preferred orientation on the stability, bandgap and absorption spectrum of ZnO

Currently, the stability and visible light properties of Ga-2N co-doped ZnO systems have been studied extensively by experimental analysis and theoretical calculations. However, previous theoretical calculations arbitrarily assigned Ga- and 2N-doped sites in ZnO. In addition, the most stable and possible doping orientations of doped systems have not been fully and systematically considered. Therefore, in this paper, the electron structure and absorption spectra of the unit cells of doped and pure systems were calculated by first-principles plane-wave ultrasoft pseudopotential with the GGA[Formula: see text]U method. Calculations were performed for pure ZnO, Ga-2N supercells heavily co-doped with Zn[Formula: see text]Ga[Formula: see text]O[Formula: see text]N[Formula: see text] ([Formula: see text], [Formula: see text]) under different co-doping orientations and conditions, and the Zn[Formula: see text]GaN2O[Formula: see text] interstitial model. The results indicated that under different orientations and constant Ga-2N co-doping concentrations, the systems co-doped with Ga-N atoms vertically oriented to the [Formula: see text]-axis and with another N atom located in the nearest-neighboring site exhibited higher stability over the others, thus lowering formation energy and facilitating doping. Moreover, Ga-interstitial- and 2N-co-doped ZnO systems easily formed chemical compounds. Increasing co-doping concentration while the co-doping method remained constant decreased doped system volume and lowered formation energies. Meantime, co-doped systems were more stable and doping was facilitated. The bandgap was also narrower and red shifting of the absorption spectrum was more significant. These results agreed with previously reported experimental results. In addition, the absorption spectra of Ga-interstitial- and 2N-co-doped ZnO both blue shifted in the UV region compared with that of the pure ZnO system.