R. R. Agundez Mojarro scite author profile

R. R. Agundez Mojarro

2Publications

4Citation Statements Received

66Citation Statements Given

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Delft University of Technology

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Inelastic cotunneling with energy-dependent contact transmission

Blok

Mojarro

Maduro

et al. 2017

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Destructive quantum interference in electron transport: A reconciliation of the molecular orbital and the atomic orbital perspective The Journal of Chemical Physics 146, 092308092308 (2016) We investigate inelastic cotunneling in a model system where the charging island is connected to the leads through molecules with energy-dependent transmission functions. To study this problem, we propose two different approaches. The first is a pragmatic approach that assumes Lorentzian-like transmission functions that determine the transmission probability to the island. Using this model, we calculate current versus voltage (IV) curves for increasing resonance level positions of the molecule. We find that shifting the resonance energy of the molecule away from the Fermi energy of the contacts leads to a decreased current at low bias, but as bias increases, this difference decreases and eventually inverses. This is markedly different from IV behavior outside the cotunneling regime. The second approach involves multiple cotunneling where also the molecules are considered to be in the Coulomb blockade regime. We find here that when E c eV, k B T , the IV behavior approaches the original cotunneling behavior proposed by Averin and Nazarov [Phys. Rev. Lett. 65, 2446-2449 (1990)]. Published by AIP Publishing. [http://dx

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Local Kondo temperatures in atomic chains

et al. 2015

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We study the effect of disorder in strongly interacting small atomic chains. Using the Kotliar-Ruckenstein slave-boson approach, we diagonalize the Hamiltonian via scattering matrix theory. We numerically solve the Kondo transmission and the slave-boson parameters that allow us to calculate the Kondo temperature. We demonstrate that in the weak disorder regime, disorder in the energy levels of the dopants induces a nonscreened disorder in the Kondo couplings of the atoms. We show that disorder increases the Kondo temperature of a perfect chain. We find that this disorder in the couplings comes from a local distribution of Kondo temperatures along the chain. We propose two experimental setups where the impact of local Kondo temperatures can be observed. Electron-electron interactions, disorder, and localization are among the most studied phenomena in condensed matter physics. In one-dimensional (1D) systems, disorder and interactions play an important role in transport. In the limiting case of no electron-electron interactions (U = 0), we encounter Anderson localization for even the smallest disorder [1,2]. When interactions dominate, the system is in a Mott insulator state [2,3]. Both limiting cases have been extensively studied, but much less is known in the intermediate regime. of intermediate strength can screen disorder, and a metallic phase has been predicted in this regime [8]. Partial disorder screening gives a gapless two-fluid phase where a fraction of electrons undergo Mott localization and the rest are Anderson localized [8].Recently it has been argued that Kondo physics can play an important role in the conductance of short 1D constrictions. Friedel oscillations are thought to assist the localization of one or more electrons in these short channels. In particular, the so-called 0.7 anomaly and the zero bias anomaly in quantum point contacts have been attributed to the Kondo effect in these spontaneously localized charges [9,10].This Rapid Communication presents a theoretical model for investigating the electron-electron interactions and disorder on Kondo transport through a spin chain with intermediate interaction strength connected on its endpoints to two reservoirs. In this intermediate electron-electron interaction strength regime we do not expect the indirect magnetic exchange to play a significant role in Kondo transport. For stronger interactions (weaker couplings) nontrivial competition between the Ruderman-Kittel-Kasuya-Yosida coupling and the Kondo effect is predicted to appear [11]. We show that Coulomb interactions screen the disorder potential for weak disorder and therefore the Kondo transmission increases with increasing interactions. We demonstrate that the screened disorder potential induces a nonscreened disorder in the coupling between the electron spin in the atoms and the conduction electrons, the Kondo coupling. This disorder in the Kondo couplings is due to different local Kondo temperatures in the chain. In particular, we find that disorder can enhance local Kondo couplings an...

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