Abstract
We investigate the topological properties and the accessible Majorana fermion (MF) phases arising in a hybrid device consisting of a chain of magnetic adatoms placed on the surface of a conventional superconductor with Rashba spin–orbit coupling (SOC). By identifying the favored classical magnetic ground state of the adatom chain, we extract the corresponding phase diagram which exhibits an interplay of ferromagnetic (FM), antiferromagnetic (AFM) and spiral orders. We determine the parameter regime for which the FM or AFM phases dominate over the spiral and additionally become stable against thermal and quantum fluctuations. For the topological analysis we focus on the FM and AFM cases and employ a low-energy effective model relying on Shiba bound states. We find that for both magnetic patterns the hybrid system behaves as a topological superconductor which can harbor one or even two MFs per edge, due to chiral symmetry. As we show, the two magnetic orderings lead to qualitatively and quantitatively distinct topological features that are reflected in the spatial profile of the MF wavefunctions. Finally, we propose directions on how to experimentally access the diverse MF phases by varying the adatom spacing, the SOC strength, or the magnetic moment of the adatoms in consideration.
Highlights
Meter regime for which the FM or AFM phases dominate over the spiral and become stable against thermal and quantum fluctuations
We investigated the magnetic phase diagram and the emergence of Majorana fermion (MF) in chains of magnetic adatoms deposited on a superconducting substrate with Rashba spin–orbit coupling (SOC)
By considering classical magnetic adatoms, that interact via a superexchange interaction in the additional presence of magnetic anisotropy, we identified the parameter space for which FM, AFM or spiral order is stabilized
Summary
We investigate the topological properties and the accessible Majorana fermion (MF) phases arising in licence. According to very recent experimental findings [33], MFs seem to emerge in magnetic adatom hybrid devices, where the ordering of the chain appears to be FM This type of ordering can lead to MFs only if Rashba SOC is present, arising from the broken inversion associated with the Pb superconducting substrate. By taking into account the various interactions, we extract the resulting magnetic phase diagram by varying the distance of the adatoms In this manner, our results address implementations with alternative substrates, either due to a different superconducting material or orientation of the surface involved.
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