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multiphysics simulation software comsol v. 5.3  (COMSOL Inc)

 
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    COMSOL Inc multiphysics simulation software comsol v. 5.3
    Multiphysics Simulation Software Comsol V. 5.3, supplied by COMSOL 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/multiphysics simulation software comsol v. 5.3/product/COMSOL Inc
    Average 90 stars, based on 1 article reviews
    multiphysics simulation software comsol v. 5.3 - by Bioz Stars, 2026-05
    90/100 stars

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    multiphysics simulation software comsol v. 5.3  (COMSOL Inc)
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    Comparison of simulated and experimental results. (A) 3D model of the experimental system used to perform <t>multiphysics</t> simulations. (B) Simulated electric field distribution inside the cuvette at t = 10 ns is homogeneous on the central slice parallel to the electrodes (the slice is represented in the left inset). (C) Simulated electric field distribution inside the cuvette at t = 10 ns is homogeneous on the central slice perpendicular to the electrodes (the slice is represented in the right inset). (D) Homogeneous simulated temperature distribution inside the volume of the solution sample placed in the cuvette, lateral and top view of the exposure system. (E) Image experimentally recorded with the thermal camera during the exposure to nsPEFs on the right, with three cursors point (green, blue, and red). A zoom of the image without cursors is reported in the right inset.
    Software Comsol Multiphysics V. 5.3, supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 90 stars, based on 1 article reviews
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    		  Buy from Supplier
    commercial software comsol multiphysics v. 5.3  (COMSOL Inc)
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    Comparison of simulated and experimental results. (A) 3D model of the experimental system used to perform <t>multiphysics</t> simulations. (B) Simulated electric field distribution inside the cuvette at t = 10 ns is homogeneous on the central slice parallel to the electrodes (the slice is represented in the left inset). (C) Simulated electric field distribution inside the cuvette at t = 10 ns is homogeneous on the central slice perpendicular to the electrodes (the slice is represented in the right inset). (D) Homogeneous simulated temperature distribution inside the volume of the solution sample placed in the cuvette, lateral and top view of the exposure system. (E) Image experimentally recorded with the thermal camera during the exposure to nsPEFs on the right, with three cursors point (green, blue, and red). A zoom of the image without cursors is reported in the right inset.
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    Comparison of simulated and experimental results. (A) 3D model of the experimental system used to perform multiphysics simulations. (B) Simulated electric field distribution inside the cuvette at t = 10 ns is homogeneous on the central slice parallel to the electrodes (the slice is represented in the left inset). (C) Simulated electric field distribution inside the cuvette at t = 10 ns is homogeneous on the central slice perpendicular to the electrodes (the slice is represented in the right inset). (D) Homogeneous simulated temperature distribution inside the volume of the solution sample placed in the cuvette, lateral and top view of the exposure system. (E) Image experimentally recorded with the thermal camera during the exposure to nsPEFs on the right, with three cursors point (green, blue, and red). A zoom of the image without cursors is reported in the right inset.

    Journal: Frontiers in Bioengineering and Biotechnology

    Article Title: Proof-of-Concept of Electrical Activation of Liposome Nanocarriers: From Dry to Wet Experiments

    doi: 10.3389/fbioe.2020.00819

    Figure Lengend Snippet: Comparison of simulated and experimental results. (A) 3D model of the experimental system used to perform multiphysics simulations. (B) Simulated electric field distribution inside the cuvette at t = 10 ns is homogeneous on the central slice parallel to the electrodes (the slice is represented in the left inset). (C) Simulated electric field distribution inside the cuvette at t = 10 ns is homogeneous on the central slice perpendicular to the electrodes (the slice is represented in the right inset). (D) Homogeneous simulated temperature distribution inside the volume of the solution sample placed in the cuvette, lateral and top view of the exposure system. (E) Image experimentally recorded with the thermal camera during the exposure to nsPEFs on the right, with three cursors point (green, blue, and red). A zoom of the image without cursors is reported in the right inset.

    Article Snippet: The electric field distribution in the cuvette containing the buffer and the temperature profile in time during the nsPEFs was solved using the software COMSOL Multiphysics v. 5.3.

    Techniques:

    Material and geometrical properties used in the FEM simulations

    Journal: Light, Science & Applications

    Article Title: Ultrasonically sculpted virtual relay lens for in situ microimaging

    doi: 10.1038/s41377-019-0173-7

    Figure Lengend Snippet: Material and geometrical properties used in the FEM simulations

    Article Snippet: To model the ultrasonic waves generated by the piezoelectric transducers, we employed a commercial Finite Element Method (FEM) software environment (COMSOL Multiphysics ® v. 5.3, COMSOL AB, Stockholm, Sweden).

    Techniques: