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Matches in Ghent University Academic Bibliography for { <https://biblio.ugent.be/publication/01HARTYGRXP7TASP7JRFYZ02VK> ?p ?o. }

• 01HARTYGRXP7TASP7JRFYZ02VK classification C1.
• 01HARTYGRXP7TASP7JRFYZ02VK date "2023".
• 01HARTYGRXP7TASP7JRFYZ02VK language "eng".
• 01HARTYGRXP7TASP7JRFYZ02VK type conference.
• 01HARTYGRXP7TASP7JRFYZ02VK hasPart 01HARV1KGVY34G10GSH20SCWXK.pdf.
• 01HARTYGRXP7TASP7JRFYZ02VK hasPart 01HASA2DBRPJGWRVCWXGRPY5BZ.pdf.
• 01HARTYGRXP7TASP7JRFYZ02VK subject "Technology and Engineering".
• 01HARTYGRXP7TASP7JRFYZ02VK doi "10.1109/USNC-URSI52151.2023.10237388".
• 01HARTYGRXP7TASP7JRFYZ02VK isbn "9781665442282".
• 01HARTYGRXP7TASP7JRFYZ02VK issn "1947-1491".
• 01HARTYGRXP7TASP7JRFYZ02VK presentedAt urn:uuid:26402b7c-6c60-414f-95db-ef334e72741a.
• 01HARTYGRXP7TASP7JRFYZ02VK abstract "In this work, a time-domain surface integral equation with a strongly nonlinear Resistive Boundary Condition is formulated and approximately solved using the march on in time scheme. The discretization of the nonlinear relation between the surface current density and the electric field is approximated such that the final system of equations to be solved are linear. It is applied to solve scattering of a Gaussian plane wave by a sphere possessing a strongly nonlinear conductivity relation. This solver is developed to specifically model the effects due to the region of negative differential conductivity in the conductivity relation, which is expected in graphene superlattice structures. Numerical results demonstrate the stability and convergence of the method and the ability to enforce the constitutive relation within controllable error bounds.".
• 01HARTYGRXP7TASP7JRFYZ02VK author 58fdeb7f-d7bf-11ec-aa9e-9397d23e5105.
• 01HARTYGRXP7TASP7JRFYZ02VK author F713E0C0-F0ED-11E1-A9DE-61C894A0A6B4.
• 01HARTYGRXP7TASP7JRFYZ02VK author urn:uuid:57284ae5-946b-43fa-8169-03b219b714ef.
• 01HARTYGRXP7TASP7JRFYZ02VK dateCreated "2023-09-20T08:22:47Z".
• 01HARTYGRXP7TASP7JRFYZ02VK dateModified "2024-10-29T18:26:25Z".
• 01HARTYGRXP7TASP7JRFYZ02VK name "Time-domain boundary element method incorporating strongly nonlinear conductivity for application in the modeling of 2D devices".
• 01HARTYGRXP7TASP7JRFYZ02VK pagination urn:uuid:5671aa46-227e-45ce-8086-154bb6a37499.
• 01HARTYGRXP7TASP7JRFYZ02VK publisher urn:uuid:01d5a197-1f55-4de2-8e37-05f133dcdabc.
• 01HARTYGRXP7TASP7JRFYZ02VK sameAs LU-01HARTYGRXP7TASP7JRFYZ02VK.
• 01HARTYGRXP7TASP7JRFYZ02VK sourceOrganization urn:uuid:6cec147c-d5a0-4ccc-8521-97e5e6ad5fa0.
• 01HARTYGRXP7TASP7JRFYZ02VK type C1.