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compton fastfit code  (MathWorks Inc)


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    MathWorks Inc compton fastfit code
    Visualization of the rich angle-correlated X-ray spectrum of a simulated LCS output with a <t>Compton</t> edge (ECE) of 60 keV at observation angles (θx, θy) up to 5 mrad from the center of the beam profile. On the X-ray flux density plot (left), four regions of interest are highlighted with dashed lines. (a) The entire field of view, (b) a centered annulus, (c) the center, and (d) an off-center region of the LCS X-ray spectrum are highlighted, and the relative total flux and energy spectrum through these regions is illustrated (right). The LCS interaction parameters used to generate these plots are described in more detail in Section 2.1 and are assumed for all LCS X-ray distributions simulated in this paper.
    Compton Fastfit Code, 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/compton fastfit code/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    compton fastfit code - by Bioz Stars, 2026-03
    90/100 stars

    Images

    1) Product Images from "Computational method for the optimization of quasimonoenergetic Laser Compton X-ray sources for imaging applications"

    Article Title: Computational method for the optimization of quasimonoenergetic Laser Compton X-ray sources for imaging applications

    Journal: Applied optics

    doi: 10.1364/AO.444307

    Visualization of the rich angle-correlated X-ray spectrum of a simulated LCS output with a Compton edge (ECE) of 60 keV at observation angles (θx, θy) up to 5 mrad from the center of the beam profile. On the X-ray flux density plot (left), four regions of interest are highlighted with dashed lines. (a) The entire field of view, (b) a centered annulus, (c) the center, and (d) an off-center region of the LCS X-ray spectrum are highlighted, and the relative total flux and energy spectrum through these regions is illustrated (right). The LCS interaction parameters used to generate these plots are described in more detail in Section 2.1 and are assumed for all LCS X-ray distributions simulated in this paper.
    Figure Legend Snippet: Visualization of the rich angle-correlated X-ray spectrum of a simulated LCS output with a Compton edge (ECE) of 60 keV at observation angles (θx, θy) up to 5 mrad from the center of the beam profile. On the X-ray flux density plot (left), four regions of interest are highlighted with dashed lines. (a) The entire field of view, (b) a centered annulus, (c) the center, and (d) an off-center region of the LCS X-ray spectrum are highlighted, and the relative total flux and energy spectrum through these regions is illustrated (right). The LCS interaction parameters used to generate these plots are described in more detail in Section 2.1 and are assumed for all LCS X-ray distributions simulated in this paper.

    Techniques Used:

    Visualization of the change in shape of local X-ray distributions as a function of observation angle (θx) from an LCS interaction with a Compton edge (ECE) of 60 keV.
    Figure Legend Snippet: Visualization of the change in shape of local X-ray distributions as a function of observation angle (θx) from an LCS interaction with a Compton edge (ECE) of 60 keV.

    Techniques Used:

    Comparison of FastFit interpolation and LCS code at two observation angles whose values are in mrad.
    Figure Legend Snippet: Comparison of FastFit interpolation and LCS code at two observation angles whose values are in mrad.

    Techniques Used: Comparison



    Similar Products

    compton fastfit code  (MathWorks Inc)
    90
    MathWorks Inc compton fastfit code
    Visualization of the rich angle-correlated X-ray spectrum of a simulated LCS output with a <t>Compton</t> edge (ECE) of 60 keV at observation angles (θx, θy) up to 5 mrad from the center of the beam profile. On the X-ray flux density plot (left), four regions of interest are highlighted with dashed lines. (a) The entire field of view, (b) a centered annulus, (c) the center, and (d) an off-center region of the LCS X-ray spectrum are highlighted, and the relative total flux and energy spectrum through these regions is illustrated (right). The LCS interaction parameters used to generate these plots are described in more detail in Section 2.1 and are assumed for all LCS X-ray distributions simulated in this paper.
    Compton Fastfit Code, 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/compton fastfit code/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    compton fastfit code - by Bioz Stars, 2026-03
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Visualization of the rich angle-correlated X-ray spectrum of a simulated LCS output with a Compton edge (ECE) of 60 keV at observation angles (θx, θy) up to 5 mrad from the center of the beam profile. On the X-ray flux density plot (left), four regions of interest are highlighted with dashed lines. (a) The entire field of view, (b) a centered annulus, (c) the center, and (d) an off-center region of the LCS X-ray spectrum are highlighted, and the relative total flux and energy spectrum through these regions is illustrated (right). The LCS interaction parameters used to generate these plots are described in more detail in Section 2.1 and are assumed for all LCS X-ray distributions simulated in this paper.

    Journal: Applied optics

    Article Title: Computational method for the optimization of quasimonoenergetic Laser Compton X-ray sources for imaging applications

    doi: 10.1364/AO.444307

    Figure Lengend Snippet: Visualization of the rich angle-correlated X-ray spectrum of a simulated LCS output with a Compton edge (ECE) of 60 keV at observation angles (θx, θy) up to 5 mrad from the center of the beam profile. On the X-ray flux density plot (left), four regions of interest are highlighted with dashed lines. (a) The entire field of view, (b) a centered annulus, (c) the center, and (d) an off-center region of the LCS X-ray spectrum are highlighted, and the relative total flux and energy spectrum through these regions is illustrated (right). The LCS interaction parameters used to generate these plots are described in more detail in Section 2.1 and are assumed for all LCS X-ray distributions simulated in this paper.

    Article Snippet: All Compton FastFit code was written and tested in MATLAB R2021a and can be accessed with explicit instructions on how to generate the data that will be presented and discussed in this paper [ 30 , 31 ].

    Techniques:

    Visualization of the change in shape of local X-ray distributions as a function of observation angle (θx) from an LCS interaction with a Compton edge (ECE) of 60 keV.

    Journal: Applied optics

    Article Title: Computational method for the optimization of quasimonoenergetic Laser Compton X-ray sources for imaging applications

    doi: 10.1364/AO.444307

    Figure Lengend Snippet: Visualization of the change in shape of local X-ray distributions as a function of observation angle (θx) from an LCS interaction with a Compton edge (ECE) of 60 keV.

    Article Snippet: All Compton FastFit code was written and tested in MATLAB R2021a and can be accessed with explicit instructions on how to generate the data that will be presented and discussed in this paper [ 30 , 31 ].

    Techniques:

    Comparison of FastFit interpolation and LCS code at two observation angles whose values are in mrad.

    Journal: Applied optics

    Article Title: Computational method for the optimization of quasimonoenergetic Laser Compton X-ray sources for imaging applications

    doi: 10.1364/AO.444307

    Figure Lengend Snippet: Comparison of FastFit interpolation and LCS code at two observation angles whose values are in mrad.

    Article Snippet: All Compton FastFit code was written and tested in MATLAB R2021a and can be accessed with explicit instructions on how to generate the data that will be presented and discussed in this paper [ 30 , 31 ].

    Techniques: Comparison