Using foraminifera in STEMSEAS Site 1 to understand the recent paleoceanographic and paleoclimatic history of Tanner Basin, California Borderland

In May of 2016, the STEMSEAS Educational Transit cruise OC1605-tranA collected the STEMSEAS Site 1 core from the Tanner Basin in the California Borderland. This research serves as the first formal survey of the foraminifera preserved within that core. The purpose of this research is to use foraminifera preserved within that core to understand the recent depositional and paleoenvironmental conditions at Site 1, and to place that information into a regional paleoceanographic and paleoclimatic context. In pursuing this purpose, this research aims to answer three questions: 1) Can biostratigraphic markers in the foraminiferal assemblages in STEMSEAS Site 1 core be used to test the hypothesis that a shift in elemental ratio concentrations at 120 cmbsf marks the Pleistocene/Holocene boundary? 2) Is there evidence of turbidity flow deposition at STEMSEAS Site 1? 3) Can the foraminiferal assemblages within STEMSEAS Site 1 core be used to study paleoenvironmental changes in the California Borderland through time? Thirty-four samples of the \u3e63 mm size sediment fraction from the core were analyzed throughout this study, and the data from those samples was compared with lithologic and elemental data collected by the STEMSEAS cruise shipboard party and with regional data. Additionally, radiocarbon dates were obtained to develop an age model for the core, which allowed cored data to be interpreted in a temporal context. In answering the proposed questions, the study found that: 1) The shift in elemental data at 120 cmbsf occurs very close to (~1 kyr following) the Pleistocene/Holocene boundary, and the Pleistocene/Holocene transition represents a period of low dissolved oxygen supply within the Tanner Basin and low surface productivity. 2) A small percentage of benthic foraminifera present at Site 1 were displaced to Site 1 from a shallower depth, suggesting that turbidity flows did impact sedimentation at this location, but were not the dominant sediment transport process. 3) The core records a paleoenvironmental history of semi-regular millennial scale variation in sea surface temperature, upwelling strength, and nutrient influx that may be driven by oscillating and increasing frequency of El Niño/Southern Oscillation events

On the Prospects of Using Metallic Glasses for In-vessel Mirrors for Plasma Diagnostics in ITER

This chapter reviews main results obtained on mirror-like samples made of several grades of bulk metallic glasses (BMG). Experiments were carried out under simulated conditions typical for the operation of plasma facing in-vessel mirrors of optical plasma diagnostics in fusion reactor ITER. Bombardment with D0 and T0 atoms radiated from burning plasma was predicted to be the main reason for the degradation of optical properties of such mirrors. Therefore, to simulate the behavior of mirrors in ITER, mirror-like samples were subjected to bombardment by ions of deuterium plasma with fixed or wide energy distribution. The effects of ion bombardment on optical properties, development of roughness, uptake of deuterium, appearance of blisters, and manifestation of some chemical processes are presented and discussed

Interpretation of Tore Supra in-vessel mirror experiments

In this paper the results of post-mortem analysis of mirror samples (molybdenum, stainless steel and copper) exposed for the I year experimental campaign inside the Tore Supra tokamak are presented. The mirrors were not protected during the experiment and therefore were exposed both to glow discharge conditioning of the vessel walls and to working discharges. After exposure, all samples were found to be eroded and at the same time were coated with a thin contaminating deposit. We pay attention to the fact, that the observed erosion cannot be described using the published sputtering yields. In particular, the difference between the erosion of stainless steel and copper exceeded a factor of 10 and the difference between the erosion of stainless steel and molybdenum was less than a factor of 2 in comparison with the corresponding factors of approximately 2.5 and apprximately 10 known from the literature. An attempt is made to correlate these observations with the different sticking coefficients of carbon on to different substrates

Sputtering Effects on Mirrors Made of Different Tungsten Grades

Because tungsten (W) is used in present fusion devices and it is a reference material for ITER divertor and possible plasma-facing material for DEMO, we strive to understand the response of different W grades to ion bombardment. In this study, we investigated the behavior of mirrors made of four polycrystalline W grades under long-term ion sputtering. Argon (Ar) and deuterium (D) ions extracted from a plasma were used to investigate the effect of projectile mass on surface modification. Depending on the ion fluence, the reflectance measured at normal incidence was very different for different W grades. The lowest degradation rate of the reflectance was measured for the mirror made of recrystallized W. The highest degradation rate was found for one of the ITER-grade W samples. Pre-irradiation of a mirror with 20-MeV W6+ ions, as simulation of neutron irradiation in ITER, had no noticeable influence on reflectance degradation under sputtering with either Ar or D ions

Modeling of the behavior of in - vessel mirrors for ITER with ECR plasma discharges

The main experimental results related to the problems associated with in-vessel mirrors in ITER obtained with the DSM-2 facility at the Kharkov Institute of Plasma Physics over the past few years are described and discussed. Mirrors made from various polycrystalline (Be, Al, SS, Cu, Mo, Ta, W) and single crystal (Ni, SS, Mo, W) metals, metal films (Be, Cu, Mo, Rh) on different metal substrates (V, SS, Cu, Mo), and an amorphous alloy (ZrTiCuNiBe) have been studied. In addition, the behavior of protective oxide coatings under plasma bombardment has also been analyzed