22 research outputs found

    Effect of the thickness of the target substrate on the ratio of X-ray intensity <i>I</i><sub><i>T</i></sub> / <i>I</i><sub><i>S</i></sub>.

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    <p>Effect of the thickness of the target substrate on the ratio of X-ray intensity <i>I</i><sub><i>T</i></sub> / <i>I</i><sub><i>S</i></sub>.</p

    X-ray spectral distributions of point-like micro-targets irradiated by some different materials.

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    <p>(A) electron beam energy 30keV, height of point-like micro-targets is 1.0μm; (B) electron beam energy 90keV, height of point-like micro-targets is 5.0μm.</p

    Additional file 6: of Analysis of microRNA profile of Anopheles sinensis by deep sequencing and bioinformatic approaches

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    Figure S1. miRNA:mRNA interaction network of novel miRNAs and their predicted targets. Interaction network of novel miRNAs and their targets. miRNAs are diamond-shaped whereas targets are elliptic. Transcripts targeted by two or more than two miRNAs are marked in yellow color. (PDF 64 kb

    Simulation model of CT reconstruction used an X-ray source with a Gaussian distribution intensity, and the detector-to-ISO distance is 58mm, the source-to-ISO distance is 2.0mm, so the detector can be considered as an ideal point (i.e. so-called detector model) (To display more clearly, the X-ray target is enlarged disproportionately).

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    <p>Simulation model of CT reconstruction used an X-ray source with a Gaussian distribution intensity, and the detector-to-ISO distance is 58mm, the source-to-ISO distance is 2.0mm, so the detector can be considered as an ideal point (i.e. so-called detector model) (To display more clearly, the X-ray target is enlarged disproportionately).</p

    Model of a point-like micro-target.

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    <p>The left curves indicate the difference of the X-ray intensity produced by the point target and that by the substrate.</p

    Additional file 7: of Analysis of microRNA profile of Anopheles sinensis by deep sequencing and bioinformatic approaches

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    Figure S2. miRNA:mRNA interaction network of conserved miRNAs and their predicted targets in the immune pathway. (TIFF 897 kb
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