Fig. 4 Imaged polarization effects.

Slides:

Advertisements

Similar presentations

Lines Identifying Different Types of Lines. LINES There are many different types of lines. Can you think of any? vertical horizontal diagonal perpendicular.

Advertisements

Sullivan Algebra and Trigonometry: Section 10.2 Objectives of this Section Graph and Identify Polar Equations by Converting to Rectangular Coordinates.

Date of download: 7/6/2016 Copyright © 2016 SPIE. All rights reserved. Polar plot of the magnification over the full field of view for two different panomorph.

Requirement of DCC, but not neogenin, expression for the basal distribution of GFP–Myo X. (A) 3D confocal imaging analysis of NLT cells expressing GFP–Myo.

9 Graphs and Graphing.

Chiu Shuen Hui, Henry R. Besch, Keshore R. Bidasee Biophysical Journal

Section 10.1 Polar Coordinates

Y. Xia, Ph.D., N. Ramakrishnan, Ph.D., A. Bidthanapally, Ph.D.

1.5b Combining Transformations

Plotting Points Guided Notes

A Map for Horizontal Disparity in Monkey V2

Volume 88, Issue 3, Pages (November 2015)

The Image The pixels in the image The mask The resulting image 255 X

Cross Sections.

Identifying Different Types of Lines

False-color Raman images of spleen tissue sections from control and LPS-treated animals obtained by k-means cluster analysis. False-color Raman images.

Fig. 2 Time-resolved THz reflectivity from MAPI after band-edge optical excitation. Time-resolved THz reflectivity from MAPI after band-edge optical excitation.

Fig. 4 Pupil shape and image quality in the model sheep eye.

Fig. 5 In vivo MIP imaging of lipid and protein in C. elegans.

Fig. 1 Sensing scheme with an atomic spin sensor.

Fig. 1 Characterization of the device structure.

Fig. 2 CFD results. CFD results. Results of CFD simulations in horizontal (left column) and vertical (right column) cross-sections. All models oriented.

Source-based CP BCI robotic arm control.

Fig. 2 Box plots of water use with lateral lengths.

Fig. 3 Critical pressure analysis for reentrant and doubly reentrant geometries. Critical pressure analysis for reentrant and doubly reentrant geometries.

Fig. 2 Zeeman splitting of the plateau and associated Kondo feature.

Fig. 1 Bands and hybridization in graphene-encapsulated WSe2 measured by μ-ARPES. Bands and hybridization in graphene-encapsulated WSe2 measured by μ-ARPES.

Fig. 2 Ferroelectric domains resolved in WTe2 single crystals.

Fig. 2 Principle of attenuation-compensation for a Bessel light sheet.

Fig. 1 Cryo-EM structure of yeast Elp123 showing its active site.

Fig. 2 Full-frame images recording the violation of a Bell inequality in four images. Full-frame images recording the violation of a Bell inequality in.

Fig. 4 Injection and earthquakes in three additional study areas with fewer earthquakes and less SWD. In contrast to those in Fig. 3, here are three comparable.

Fig. 3 Controlled phase shift.

Fig. 4 The results of HRTEM and high-angle annular dark-field scanning TEM investigations. The results of HRTEM and high-angle annular dark-field scanning.

Fig. 1 Phase diagram and FS topologies.

by Andreas Keiling, Scott Thaller, John Wygant, and John Dombeck

Fig. 2 Images of complex structures formed via sequential folding.

Fig. 2 Configuration and composition of urban green space.

Fig. 2 Pulsed THz imaging. Pulsed THz imaging. (A) Electric field of our THz pulse recorded in the time domain using electro-optic sampling. The arrow.

Fig. 2 Nanoparticle logic gates.

Fig. 1 Hypothesized models of intensity and polarization channel integration in crustaceans. Hypothesized models of intensity and polarization channel.

René B. Svensson, Tue Hassenkam, Colin A. Grant, S. Peter Magnusson

Fig. 2 Raman characterization of CVD-grown graphene.

Fig. 2 Large-area and high-density assembly of AuNPs.

Fig. 4 Giant optical chirality.

High-density array of ferroelectric nanodots with robust and reversibly switchable topological domain states by Zhongwen Li, Yujia Wang, Guo Tian, Peilian.

Fig. 3 Polarized perovskite nanocomposites via 3D printing.

Fig. 3 CFD simulations. CFD simulations. (A to R) Details of water flow around Tribrachidium oriented at 0° to the current. Model with original height.

Fig. 3 Plastic ingestion and DMS responsiveness among procellariiform seabirds. Plastic ingestion and DMS responsiveness among procellariiform seabirds.

Fig. 1 Fractional coverage of the mapping method used in this study.

by N. T. Nassar, T. E. Graedel, and E. M. Harper

Fig. 1 The s-s/w-w H-bond pairing principle and the effect of protein-ligand H-bonds on protein-ligand binding. The s-s/w-w H-bond pairing principle and.

Fig. 2 Realization of asymmetric photon transport.

Fig. 2 Comparison of the observed DRs and the estimates by the VR model and FL. Comparison of the observed DRs and the estimates by the VR model and FL.

Fig. 1 Light and CRIS of the relationship between magnetite and MMC in the meteorites studied. Light and CRIS of the relationship between magnetite and.

Fig. 1 Charge manipulation and readout in diamond.

Fig. 3 Spectral characteristics of OLED arrays and identification of light-sensitive HEK-293 cells. Spectral characteristics of OLED arrays and identification.

Fig. 2 Polarized emission from printed perovskite nanocomposites.

Fig. 5 Distributions of cell nuclear area values and internuclear distances in the breast tumor specimens (Figs. 3 and 4), where bin interval = 8 and n.

Fig. 3 Performance of the solid wire supercapacitors of 3D graphene-CNT fiber for energy storage. Performance of the solid wire supercapacitors of 3D graphene-CNT.

SEM and TEM images and photoluminescence properties of composites

Fig. 4 Matrix for intersections of differentially expressed transcripts between RNAiAFL transgenic and null kernels. Matrix for intersections of differentially.

Fig. 4 Relationship of plastic ingestion and nesting behavior.

Fig. 4 Idea for implementation of LC circuits based on waveguide metatronics using only materials with positive permittivities. Idea for implementation.

Fig. 4 In situ mapping of human patient breast cancer and stroma.

Fig. 5 Electrical stimulation of nerve cells powered by BD-TENG.

Fig. 5 Spatial resolution of the optogenetic activation achieved with OLED microarrays. Spatial resolution of the optogenetic activation achieved with.

Fig. 5 SEM images of pin and disc wear tests.

Fig. 2 Imaging blood vessel before and after closure.

Fig. 2 Printed three-axis acceleration sensor.

Presentation transcript:

Fig. 4 Imaged polarization effects. Imaged polarization effects. (A) Images (64 × 64) of circuit board in Fig. 3A with vertical polarization. Pixels are 40 μm. We see that the contrast of each of the individual wires in the circuit depends on the THz polarization, with the highest contrast seen for polarization parallel to the wires. (B to E) Images (64 × 64) of the square regions in (A). Polarization is shown by the green arrow on the top left corner of each picture. Pixel size is 20 μm, and images have been denoised using the algorithm described in section S7. We see that the very subwavelength wiring breaks [marked by circles in (B) and (E)] give rise to transmissive regions in the THz image when the THz polarization is parallel to the wire. In (E), the diagonally orientated wire (indicated by the white arrow) also shows low contrast. Every image has been obtained via a full set of Hadamard masks. (F and G) Line plots through the 8-μm gaps in (B) and (E) with amplitude and space on the vertical and horizontal axis, respectively. The spatial coordinates of the plots are indicated by green rectangles in (B) and (E). Rayko Ivanov Stantchev et al. Sci Adv 2016;2:e1600190 Copyright © 2016, The Authors