https://cosmosscholars.com/phms/index.php/ijaapr/issue/feedInt. J. of Advanced Applied Physics Research2021-11-15T08:39:01-05:00Support Managersupport@cosmosscholars.comOpen Journal Systems<p><strong>International Journal of Advanced Applied Physics Research</strong><em> is </em>a refereed and highly professional journal that publishes premium theoretical and pragmatic papers in the field of<em> Applied Physics.</em> Applied Physicist use physics or conducting physics research with aim of developing new technologies or solving an engineering problem<em>.</em></p>The journal publishes articles that emphasize understanding of the physics underlying modern technology in mode of original research articles, reviews, conference papers and short notes etc.https://cosmosscholars.com/phms/index.php/ijaapr/article/view/980Simulation and Compact Modeling of Organic Thin Film Transistors (OTFTs) for Circuit Simulation 2021-11-15T08:39:01-05:00A.D.D. Dwivediadddwivedi@gmail.com Rajeev Dhar Dwivedisupport@cosmosscholars.comRaghvendra Dhar Dwivedisupport@cosmosscholars.comQingda Zhaosupport@cosmosscholars.com<p><span style="font-size: 10pt;"><span style="font-size: 10pt; font-family: Arial, sans-serif;">In this paper we present TCAD simulation and compact modeling of OTFTs. Finite element method (FEM) based numerical simulations have been performed using density of state model and field dependent mobility model to simulate the electrical behavior of the OTFT devices. Further Universal Organic Thin Film Transistor (UOTFT) compact model has been applied for simulating the DC I-V characteristics of the device using device modeling software UTMOST-IV. TCAD simulated characteristics and compact model based simulated characteristics were compared and contrasted. Device model parameters were extracted using UOTFT model. Extracted model is applied in designing the OTFT based PMOS-like inverter and hybrid operational amplifier</span>.</span></p>2019-06-03T00:00:00-04:00Copyright (c) 2021