Fig. 2 Microstructures in the cataclasites and damage zone.

Slides:

Advertisements

Similar presentations

Fig. 4 3D reconfiguration of liquid metals for electronics.

Advertisements

Fig. 5 MicroLED array with 3D liquid metal interconnects.

Fig. 2 Reconfiguration of liquid metals into 3D structures.

Fig. 1 High-resolution printing of liquid metals.

Fig. 3 The electrical contact of direct-printed and reconfigured liquid metals. The electrical contact of direct-printed and reconfigured liquid metals.

Fig. 2 Global production, use, and fate of polymer resins, synthetic fibers, and additives (1950 to 2015; in million metric tons). Global production, use,

Fig. 3 Vibrational spectra of human bones from the Copper Age (Scoglietto cave, Italy). Vibrational spectra of human bones from the Copper Age (Scoglietto.

Vibrational spectra of medieval human bones (Leopoli-Cencelle, Italy)

Fig. 1 Pump-probe signatures of vermilion (red HgS), black HgS, and metallic Hg. Pump-probe signatures of vermilion (red HgS), black HgS, and metallic.

Fig. 5 Thermal conductivity of n-type ZrCoBi-based half-Heuslers.

Fig. 1 Map of water stress and shale plays.

Fig. 1 Examples of experimental stimuli and behavioral performance.

Fig. 1 Wireless, battery-free neural cuff for programmable pharmacology and optogenetics. Wireless, battery-free neural cuff for programmable pharmacology.

Fig. 3 Electron PSD in various regions.

Fig. 4 Complete separation of water and solute after stable and efficient solar evaporation. Complete separation of water and solute after stable and efficient.

Fig. 4 Resynthesized complex boronic acid derivatives based on different scaffolds on a millimole scale and corresponding yields. Resynthesized complex.

Fig. 1 Mean and median RCR (Relative Citation Ratio) of Roadmap Epigenomics Program research articles for each year. Mean and median RCR (Relative Citation.

Fig. 2 Influence of the Roadmap Epigenomics Program on the field of epigenomics research. Influence of the Roadmap Epigenomics Program on the field of.

Fig. 3 Glucose- and structure-dependent insulin release.

Fig. 3 Scan rate effects on the layer edge current.

Fig. 2 TRXSS data. TRXSS data. TRXSS data covering delay times from 10 ns to 10 ms for wild-type DmCry (A), for the DmCry(H378A) mutant (B), and for XlPho.

Fig. 3 Rotation experiment, setup.

Fig. 1 Product lifetime distributions for the eight industrial use sectors plotted as log-normal probability distribution functions (PDF). Product lifetime.

Fig. 5 Structural photocycle for DmCry.

FTIR-ATR spectra of Neolithic faunal bones (Mora Cavorso cave, Italy)

Fig. 1 Structure of the lower crustal fault in the Bergen Arcs.

Fig. 1 Distribution of total and fake news shares.

Dynamic earthquake rupture in the lower crust

Fig. 2 2D QWs of different propagation lengths.

Fig. 1 Map of the study area including the northwestern end of the Hawaiian Ridge and the southern portion of the ESC. Map of the study area including.

Electronic structure of the oligomer (n = 8) at the UB3LYP/6-31G

Fig. 3 Magnetic scrolls. Magnetic scrolls. (A) Actuation of an IROGRAN scroll by moving the magnet toward the scroll and pulling the scroll open. The scroll.

Fig. 1 Schematic illustration and atomic-scale rendering of a silica AFM tip sliding up and down a single-layer graphene step edge on an atomically flat.

Fig. 4 EUV TG signal from Si.

Fig. 6 WPS imaging of different chemical components in living cells.

Fig. 3 ET dynamics on the control and treatment watersheds during the pretreatment and treatment periods. ET dynamics on the control and treatment watersheds.

Fig. 1 Histograms of the number of first messages received by men and women in each of our four cities. Histograms of the number of first messages received.

Fig. 5 Schematic phase diagrams of Ising spin systems and Mott transition systems. Schematic phase diagrams of Ising spin systems and Mott transition systems.

Fig. 4 OER performance of ACoO3 (A = Ca, Sr) in alkaline solutions with different pH. OER performance of ACoO3 (A = Ca, Sr) in alkaline solutions with.

Fig. 5 Topology structure and strategy for the bottom-up synthesis of structurally uniform carboncones[1,m]. Topology structure and strategy for the bottom-up.

Fig. 1 Average contribution (million metric tons) of seafood-producing sectors, 2009–2014. Average contribution (million metric tons) of seafood-producing.

Fig. 4 Praying Prophet by Lorenzo Monaco: Mapping lake pigments and associated substrate. Praying Prophet by Lorenzo Monaco: Mapping lake pigments and.

Fig. 1 Cross-sectional images of He-implanted V/Cu/V samples.

Nanoparticle-enabled grain refinement in other materials systems

Fig. 1 Microstructure of bulk UFG/nanocrystalline Cu-containing distributed WC nanoparticles. Microstructure of bulk UFG/nanocrystalline Cu-containing.

Fig. 2 Magnetic properties of FGT/Pt bilayer.

Fig. 1 Time course of growth parameters for acetate-grown cultures of M. acetivorans with and without supplements. Time course of growth parameters for.

Fig. 3 Production of protein and Fe(II) at the end of growth correlated with increasing concentrations of ferrihydrite in the media that contained 0.2.

Fig. 2 Schematic drawings of Göbekli Tepe skulls.

Fig. 1 Size fractions of MPPs in different fertilizers.

Fig. 5 Comparison of the liquid products generated from photocatalytic CO2 reduction reactions (CO2RR) and CO reduction reactions (CORR) on two catalysts.

Fig. 5 Skull 1: Tentative reconstruction.

Fig. 1 Location of the Jirzankal Cemetery.

Fig. 4 CO2 emission changes triggered by the JJJ clean air policy.

Fig. 1 Structural and electrical properties of Bi2Se3/BaFe12O19.

Fig. 3 Comparisons of NDVI trends over the globally vegetated areas from 1982 to Comparisons of NDVI trends over the globally vegetated areas from.

Fig. 1 Schematic depiction of a paradigm for rapid and guided discovery of materials through iterative combination of ML with HiTp experimentation. Schematic.

Fig. 4 Spatial mapping of the distribution and intensity of industrial fishing catch. Spatial mapping of the distribution and intensity of industrial fishing.

Fig. 4 Single-particle contact angle measurements.

Fig. 5 Density plots showing the relationship between growth responses to extreme events and site-level mean precipitation from all sites (N = 1314). Density.

Fig. 3 Supraballs and films assembled from binary 219/217nm SPs/SMPs.

Fig. 2 Supraballs and films from binary SPs.

Fig. 3 Performance of the generative model G, with and without stack-augmented memory. Performance of the generative model G, with and without stack-augmented.

Fig. 4 Behavior of resistance peak near density nm = 5.

Fig. 2 Comparison between the different reflective metasurface proposals when θi = 0° and θr = 70°. Comparison between the different reflective metasurface.

Fig. 1 Overview of amber clast with synchrotron x-ray μCT image of articulated snake skeleton (DIP-S-0907). Overview of amber clast with synchrotron x-ray.

Fig. 1 Architected materials fabrication by projection microstereolithography–based additive manufacturing using poly(ethylene glycol) diacrylate resin.

Fig. 5 Flickering RSCF display at night.

Fig. 3 Calculated electronic structure of ZrCoBi.

Fig. 3 Temperature-dependent heat capacity of YbTM2Zn20.

Presentation transcript:

Fig. 2 Microstructures in the cataclasites and damage zone. Microstructures in the cataclasites and damage zone. (A and B) Three-dimensional x-ray computed microtomography images looking southwest showing extracted garnet clasts (Grt) in the cataclasite (dark red). The entire volume of the cataclasite is shown in (A), and the volume adjacent to the outer pseudotachylyte is shown in (B). The x-y-z coordinate system is the same as in Fig. 1D. (C and D) Backscatter electron (BSE) images of the (C) southern and (D) northern cataclasite. The boundary with the outer pseudotachylyte is marked by elongated aggregates of garnet fragments with growth rims. Insets show garnet clasts with growth rims and the grain size distribution [probability density function (PDF)] of garnet clasts with associated power law exponents (see Methods). (E and F) BSE images of the (E) fragmented garnet and (F) fragmented diopside (Di) in the damage zone. Fragmented garnet has a corona of diopside, K-feldspar (Kfs), and kyanite (Ky). Fragmented diopside has a corona of hornblende (Hbl), K-feldspar, and kyanite. Note the fragmented plagioclase (Plg) with clinozoisite (Czo), K-feldspar, kyanite, and quartz (Qtz) growth (see also fig. S7). Insets show the grain size distribution of garnet and diopside clasts with associated power law exponents. Scale bars, 0.25 mm. North is up in (C) to (F). Photo credit: (A and B) Benoit Cordonnier, University of Oslo; (C) through (F), Arianne Petley-Ragan. Arianne Petley-Ragan et al. Sci Adv 2019;5:eaaw0913 Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).