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1d bloch equation simulation  (MathWorks Inc)


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    MathWorks Inc 1d bloch equation simulation
    3D joint T 1 / T 1 ρ / T 2 mapping and water/fat imaging sequence schematic diagram. Volume 1: IR (TI = 250 ms ), Volume 2: no‐preparation, Volume 3: T 1 ρ ‐preparation (spin‐lock duration = 40 ms and spin‐lock amplitude = 400 Hz ), Volume 4: T 2 ‐preparation (duration = 40 ms ), Volume 5: no preparation. Non‐rigid motion correction with patch‐based regularization is used to reconstruct 3D IP/OP HB images; water and fat images are generated from IP/OP images through a fat‐water separation algorithm, and T 1 / T 1 ρ / T 2 maps are estimated from water images by dictionary matching via a <t>Bloch</t> simulation of the proposed 3D sequence.
    1d Bloch Equation Simulation, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/1d bloch equation simulation/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    1d bloch equation simulation - by Bioz Stars, 2026-03
    90/100 stars

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    1) Product Images from "3D joint T 1 /T 1 ρ /T 2 mapping and water‐fat imaging for contrast‐agent free myocardial tissue characterization at 1.5T"

    Article Title: 3D joint T 1 /T 1 ρ /T 2 mapping and water‐fat imaging for contrast‐agent free myocardial tissue characterization at 1.5T

    Journal: Magnetic Resonance in Medicine

    doi: 10.1002/mrm.30397

    3D joint T 1 / T 1 ρ / T 2 mapping and water/fat imaging sequence schematic diagram. Volume 1: IR (TI = 250 ms ), Volume 2: no‐preparation, Volume 3: T 1 ρ ‐preparation (spin‐lock duration = 40 ms and spin‐lock amplitude = 400 Hz ), Volume 4: T 2 ‐preparation (duration = 40 ms ), Volume 5: no preparation. Non‐rigid motion correction with patch‐based regularization is used to reconstruct 3D IP/OP HB images; water and fat images are generated from IP/OP images through a fat‐water separation algorithm, and T 1 / T 1 ρ / T 2 maps are estimated from water images by dictionary matching via a Bloch simulation of the proposed 3D sequence.
    Figure Legend Snippet: 3D joint T 1 / T 1 ρ / T 2 mapping and water/fat imaging sequence schematic diagram. Volume 1: IR (TI = 250 ms ), Volume 2: no‐preparation, Volume 3: T 1 ρ ‐preparation (spin‐lock duration = 40 ms and spin‐lock amplitude = 400 Hz ), Volume 4: T 2 ‐preparation (duration = 40 ms ), Volume 5: no preparation. Non‐rigid motion correction with patch‐based regularization is used to reconstruct 3D IP/OP HB images; water and fat images are generated from IP/OP images through a fat‐water separation algorithm, and T 1 / T 1 ρ / T 2 maps are estimated from water images by dictionary matching via a Bloch simulation of the proposed 3D sequence.

    Techniques Used: Imaging, Sequencing, Generated



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    Image Search Results


    3D joint T 1 / T 1 ρ / T 2 mapping and water/fat imaging sequence schematic diagram. Volume 1: IR (TI = 250 ms ), Volume 2: no‐preparation, Volume 3: T 1 ρ ‐preparation (spin‐lock duration = 40 ms and spin‐lock amplitude = 400 Hz ), Volume 4: T 2 ‐preparation (duration = 40 ms ), Volume 5: no preparation. Non‐rigid motion correction with patch‐based regularization is used to reconstruct 3D IP/OP HB images; water and fat images are generated from IP/OP images through a fat‐water separation algorithm, and T 1 / T 1 ρ / T 2 maps are estimated from water images by dictionary matching via a Bloch simulation of the proposed 3D sequence.

    Journal: Magnetic Resonance in Medicine

    Article Title: 3D joint T 1 /T 1 ρ /T 2 mapping and water‐fat imaging for contrast‐agent free myocardial tissue characterization at 1.5T

    doi: 10.1002/mrm.30397

    Figure Lengend Snippet: 3D joint T 1 / T 1 ρ / T 2 mapping and water/fat imaging sequence schematic diagram. Volume 1: IR (TI = 250 ms ), Volume 2: no‐preparation, Volume 3: T 1 ρ ‐preparation (spin‐lock duration = 40 ms and spin‐lock amplitude = 400 Hz ), Volume 4: T 2 ‐preparation (duration = 40 ms ), Volume 5: no preparation. Non‐rigid motion correction with patch‐based regularization is used to reconstruct 3D IP/OP HB images; water and fat images are generated from IP/OP images through a fat‐water separation algorithm, and T 1 / T 1 ρ / T 2 maps are estimated from water images by dictionary matching via a Bloch simulation of the proposed 3D sequence.

    Article Snippet: A 1D Bloch equation simulation of the longitudinal magnetization, assuming perfect spoiling, was implemented in MATLAB (The MathWorks Inc., Natick, MA, USA) to generate a signal at each TR.

    Techniques: Imaging, Sequencing, Generated