First-principles many-body models for electron transport through molecular nanomagnets

Abstract: Impressive advances in the field of molecular spintronics allow one to study electron transport through individual magnetic molecules embedded between metallic leads in the purely quantum regime of single electron tunneling. Besides fundamental interest, this experimental setup, in which a single molecule is manipulated by electronic means, provides the elementary units of possible forthcoming technological applications, ranging from spin valves to transistors and qubits for quantum information processing. The… Show more

“…Since the molecular electrons are located in the d orbitals, the electron-electron interaction should be strong enough and cannot be handled well using any mean-field methods. 45,51 Among many computational methods, the numerical renormalization group (NRG) is one of the most effective and precise methods to resolve strongly correlated problems. 52 Hence, we employ the NRG method [53][54][55] to treat eqn (1).…”

Correlation anisotropy driven Kosterlitz–Thouless-type quantum phase transition in a Kondo simulator

“…Since the molecular electrons are located in the d orbitals, the electron-electron interaction should be strong enough and cannot be handled well using any mean-field methods. 45,51 Among many computational methods, the numerical renormalization group (NRG) is one of the most effective and precise methods to resolve strongly correlated problems. 52 Hence, we employ the NRG method [53][54][55] to treat eqn (1).…”

Correlation anisotropy driven Kosterlitz–Thouless-type quantum phase transition in a Kondo simulator

“…Simulations of the readout process are shown in Figure 6g, obtained by numerically computing the steady-state solution of the second-order Pauli master equation [145,146] for the two states of the qubit, assuming ideal CISS. The effect of temperature is included via the Fermi functions on the electrodes, while co-tunneling processes and the broadening of the SET levels, due to the coupling with the electrodes and finite level lifetime, are neglected.…”

Chirality‐Induced Spin Selectivity: An Enabling Technology for Quantum Applications

“…25,26 However, if the local electron-electron interaction becomes strong enough, these approaches are then bound to fail, due to the fact that the correlation effects are treated at a meanfield-like level, and the excited spectrum cannot be captured properly. 27 In such a situation, many-body non-perturbative methods are highly desired. Among many suggested techniques, the numerical renormalization group (NRG) method is proved to be reliable in dealing with the strongly correlated problems of quantum impurity models.…”

Phase transitions induced by exchange coupling, magnetic field, and temperature in a strongly correlated molecular trimer with a triangular topology