English

Multifunctional Spin Logic Gates In Graphene Spin Circuits

Mesoscale and Nanoscale Physics 2024-10-11 v1 Materials Science Applied Physics

Abstract

All-spin-based computing combining logic and nonvolatile magnetic memory is promising for emerging information technologies. However, the realization of a universal spin logic operation representing a reconfigurable building block with all-electrical spin current communication has so far remained challenging. Here, we experimentally demonstrate a reprogrammable all-electrical multifunctional spin logic gate in a nanoelectronic device architecture utilizing graphene buses for spin communication and multiplexing and nanomagnets for writing and reading information at room temperature. This gate realizes a multistate majority spin logic operation (sMAJ), which is reconfigured to achieve XNOR, (N)AND, and (N)OR Boolean operations depending on the magnetization of inputs. Physics-based spin circuit model is developed to understand the underlying mechanisms of the multifunctional spin logic gate and its operations. These demonstrations provide a platform for scalable all-electric spin logic and neuromorphic computing in the all-spin domain logic-in-memory architecture.

Keywords

Cite

@article{arxiv.2108.12259,
  title  = {Multifunctional Spin Logic Gates In Graphene Spin Circuits},
  author = {Dmitrii Khokhriakov and Shehrin Sayed and Anamul Md. Hoque and Bogdan Karpiak and Bing Zhao and Supriyo Datta and Saroj P. Dash},
  journal= {arXiv preprint arXiv:2108.12259},
  year   = {2024}
}
R2 v1 2026-06-24T05:28:10.291Z