Moldoveanu, V.Ţolea, M.Tanatar, Bilal2016-02-082016-02-0820081386-9477http://hdl.handle.net/11693/23190We investigate the measurement induced dephasing of the Fano effect in the electronic transport through a double quantum dot mesoscopic interferometer coupled to a charge detector. The current and the differential conductance are computed within the Keldysh formalism, taking into account of the inelastic processes due to the dot-detector interaction. We show that the visibility of the Fano lineshape is reduced by applying a finite bias on the charge detector.EnglishCoherent quantum transport and dephasingCoherent lightInterferometersMeasurement theoryCoherent quantum transport and dephasingFano effectSemiconductor quantum dotsCoherent and incoherent transport through T-shaped double quantum dotsArticle10.1016/j.physe.2007.08.012