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general-purpose software matlab r2023b  (MathWorks Inc)


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    MathWorks Inc general-purpose software matlab r2023b
    AC-driven electroconvection (EC) with superposed external colored noise. ( a ) Schematic of EC driven by Coulomb forces on electric charges (+ ,−) in a nematic liquid crystal (NLC). The rods in the EC vortices indicate the director n ( n x , 0, n z ) of the NLC modulated from the initial director n 0 = (1, 0, 0) (at V = 0). Above a threshold voltage V c , EC is optically observed as a periodic roll pattern (i.e., the so-called Williams domains) in the xy plane by the lens effect of the periodic director angle φ ( x ). ( b ) Power spectra P ( f ) of colored noise characterized by the cutoff frequency f c of the pass band and the width W of the attenuation band. ( c ) Schematic of Gaussian amplitude noise (top) and phase noise (bottom) superposed on a sinusoidal AC signal. ( d ) Typical P ( f ) of noise in this study, characterized by the steepness s corresponding to W at a fixed f c ; note that s = 1 indicates W = 0 for ideal noise filters. Each P ( f ) was obtained from the noises generated by a frequency filtering program integrated into the general-purpose software <t>(MATLAB).</t> Compare these P ( f ) from the filtering program with that ( s = 0.80) obtained experimentally from a wave generator (HIOKI, 7075).
    General Purpose Software Matlab R2023b, 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/product/general-purpose+software+matlab+r2023b/pmc11411126-220-7-9?v=MathWorks+Inc
    Average 90 stars, based on 1 article reviews
    general-purpose software matlab r2023b - by Bioz Stars, 2026-07
    90/100 stars

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    1) Product Images from "Manipulating conductivity and noise for transitioning between stochastic and inverse stochastic resonances in liquid–crystal electroconvection"

    Article Title: Manipulating conductivity and noise for transitioning between stochastic and inverse stochastic resonances in liquid–crystal electroconvection

    Journal: Scientific Reports

    doi: 10.1038/s41598-024-71897-z

    AC-driven electroconvection (EC) with superposed external colored noise. ( a ) Schematic of EC driven by Coulomb forces on electric charges (+ ,−) in a nematic liquid crystal (NLC). The rods in the EC vortices indicate the director n ( n x , 0, n z ) of the NLC modulated from the initial director n 0 = (1, 0, 0) (at V = 0). Above a threshold voltage V c , EC is optically observed as a periodic roll pattern (i.e., the so-called Williams domains) in the xy plane by the lens effect of the periodic director angle φ ( x ). ( b ) Power spectra P ( f ) of colored noise characterized by the cutoff frequency f c of the pass band and the width W of the attenuation band. ( c ) Schematic of Gaussian amplitude noise (top) and phase noise (bottom) superposed on a sinusoidal AC signal. ( d ) Typical P ( f ) of noise in this study, characterized by the steepness s corresponding to W at a fixed f c ; note that s = 1 indicates W = 0 for ideal noise filters. Each P ( f ) was obtained from the noises generated by a frequency filtering program integrated into the general-purpose software (MATLAB). Compare these P ( f ) from the filtering program with that ( s = 0.80) obtained experimentally from a wave generator (HIOKI, 7075).
    Figure Legend Snippet: AC-driven electroconvection (EC) with superposed external colored noise. ( a ) Schematic of EC driven by Coulomb forces on electric charges (+ ,−) in a nematic liquid crystal (NLC). The rods in the EC vortices indicate the director n ( n x , 0, n z ) of the NLC modulated from the initial director n 0 = (1, 0, 0) (at V = 0). Above a threshold voltage V c , EC is optically observed as a periodic roll pattern (i.e., the so-called Williams domains) in the xy plane by the lens effect of the periodic director angle φ ( x ). ( b ) Power spectra P ( f ) of colored noise characterized by the cutoff frequency f c of the pass band and the width W of the attenuation band. ( c ) Schematic of Gaussian amplitude noise (top) and phase noise (bottom) superposed on a sinusoidal AC signal. ( d ) Typical P ( f ) of noise in this study, characterized by the steepness s corresponding to W at a fixed f c ; note that s = 1 indicates W = 0 for ideal noise filters. Each P ( f ) was obtained from the noises generated by a frequency filtering program integrated into the general-purpose software (MATLAB). Compare these P ( f ) from the filtering program with that ( s = 0.80) obtained experimentally from a wave generator (HIOKI, 7075).

    Techniques Used: Generated, Software



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    MathWorks Inc general-purpose software matlab r2023b
    AC-driven electroconvection (EC) with superposed external colored noise. ( a ) Schematic of EC driven by Coulomb forces on electric charges (+ ,−) in a nematic liquid crystal (NLC). The rods in the EC vortices indicate the director n ( n x , 0, n z ) of the NLC modulated from the initial director n 0 = (1, 0, 0) (at V = 0). Above a threshold voltage V c , EC is optically observed as a periodic roll pattern (i.e., the so-called Williams domains) in the xy plane by the lens effect of the periodic director angle φ ( x ). ( b ) Power spectra P ( f ) of colored noise characterized by the cutoff frequency f c of the pass band and the width W of the attenuation band. ( c ) Schematic of Gaussian amplitude noise (top) and phase noise (bottom) superposed on a sinusoidal AC signal. ( d ) Typical P ( f ) of noise in this study, characterized by the steepness s corresponding to W at a fixed f c ; note that s = 1 indicates W = 0 for ideal noise filters. Each P ( f ) was obtained from the noises generated by a frequency filtering program integrated into the general-purpose software <t>(MATLAB).</t> Compare these P ( f ) from the filtering program with that ( s = 0.80) obtained experimentally from a wave generator (HIOKI, 7075).
    General Purpose Software Matlab R2023b, 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/product/general-purpose+software+matlab+r2023b/pmc11411126-220-7-9?v=MathWorks+Inc
    Average 90 stars, based on 1 article reviews
    general-purpose software matlab r2023b - by Bioz Stars, 2026-07
    90/100 stars
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    AC-driven electroconvection (EC) with superposed external colored noise. ( a ) Schematic of EC driven by Coulomb forces on electric charges (+ ,−) in a nematic liquid crystal (NLC). The rods in the EC vortices indicate the director n ( n x , 0, n z ) of the NLC modulated from the initial director n 0 = (1, 0, 0) (at V = 0). Above a threshold voltage V c , EC is optically observed as a periodic roll pattern (i.e., the so-called Williams domains) in the xy plane by the lens effect of the periodic director angle φ ( x ). ( b ) Power spectra P ( f ) of colored noise characterized by the cutoff frequency f c of the pass band and the width W of the attenuation band. ( c ) Schematic of Gaussian amplitude noise (top) and phase noise (bottom) superposed on a sinusoidal AC signal. ( d ) Typical P ( f ) of noise in this study, characterized by the steepness s corresponding to W at a fixed f c ; note that s = 1 indicates W = 0 for ideal noise filters. Each P ( f ) was obtained from the noises generated by a frequency filtering program integrated into the general-purpose software (MATLAB). Compare these P ( f ) from the filtering program with that ( s = 0.80) obtained experimentally from a wave generator (HIOKI, 7075).

    Journal: Scientific Reports

    Article Title: Manipulating conductivity and noise for transitioning between stochastic and inverse stochastic resonances in liquid–crystal electroconvection

    doi: 10.1038/s41598-024-71897-z

    Figure Lengend Snippet: AC-driven electroconvection (EC) with superposed external colored noise. ( a ) Schematic of EC driven by Coulomb forces on electric charges (+ ,−) in a nematic liquid crystal (NLC). The rods in the EC vortices indicate the director n ( n x , 0, n z ) of the NLC modulated from the initial director n 0 = (1, 0, 0) (at V = 0). Above a threshold voltage V c , EC is optically observed as a periodic roll pattern (i.e., the so-called Williams domains) in the xy plane by the lens effect of the periodic director angle φ ( x ). ( b ) Power spectra P ( f ) of colored noise characterized by the cutoff frequency f c of the pass band and the width W of the attenuation band. ( c ) Schematic of Gaussian amplitude noise (top) and phase noise (bottom) superposed on a sinusoidal AC signal. ( d ) Typical P ( f ) of noise in this study, characterized by the steepness s corresponding to W at a fixed f c ; note that s = 1 indicates W = 0 for ideal noise filters. Each P ( f ) was obtained from the noises generated by a frequency filtering program integrated into the general-purpose software (MATLAB). Compare these P ( f ) from the filtering program with that ( s = 0.80) obtained experimentally from a wave generator (HIOKI, 7075).

    Article Snippet: The discrete fourth-order Runge–Kutta method within the general-purpose software MATLAB R2023b was employed to determine the threshold voltage V c of EC based on the governing Eqs. ( ) and ( ) for the Carr–Helfrich mechanism , , .

    Techniques: Generated, Software