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Electron transport in quantum devices is governed by discrete quantum states due to electronconfinement. A crucial requirement for the modeling of quantum devices is the the numericalidentification and resolution of these quantum states. We present an algorithm utilized in ourgeneral purpose quantum device simulator (NEMO), where we locate the resonances of thesystem first and then generate the optimized grid used to integrate over the resonances. Wefind this algorithm important in the modeling of coherent transport involving ultrafine resonancesand crucial for the modeling of incoherent transport

Resolution of Resonances in a General Purpose Quantum Device Simulator (NEMO)