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A non-volatile cryogenic random-access memory based on the quantum anomalous Hall effect

Shamiul Alam, Md Shafayat Hossain, Ahmedullah Aziz

2021Scientific Reports26 citationsDOIOpen Access PDF

Abstract

The interplay between ferromagnetism and topological properties of electronic band structures leads to a precise quantization of Hall resistance without any external magnetic field. This so-called quantum anomalous Hall effect (QAHE) is born out of topological correlations, and is oblivious of low-sample quality. It was envisioned to lead towards dissipation-less and topologically protected electronics. However, no clear framework of how to design such an electronic device out of it exists. Here we construct an ultra-low power, non-volatile, cryogenic memory architecture leveraging the QAHE phenomenon. Our design promises orders of magnitude lower cell area compared with the state-of-the-art cryogenic memory technologies. We harness the fundamentally quantized Hall resistance levels in moiré graphene heterostructures to store non-volatile binary bits (1, 0). We perform the memory write operation through controlled hysteretic switching between the quantized Hall states, using nano-ampere level currents with opposite polarities. The non-destructive read operation is performed by sensing the polarity of the transverse Hall voltage using a separate pair of terminals. We custom design the memory architecture with a novel sensing mechanism to avoid accidental data corruption, ensure highest memory density and minimize array leakage power. Our design provides a pathway towards realizing topologically protected memory devices.

Topics & Concepts

Quantum Hall effectHall effectQuantum anomalous Hall effectPhysicsCondensed matter physicsComputer scienceFerromagnetismQuantization (signal processing)QuantumHall effect sensorNon-volatile memoryBinary numberTopology (electrical circuits)HeterojunctionMagnetic storageMagnetic fieldGrapheneOptoelectronicsComputer data storageVoltageQuantum computerElectrical engineeringLeakage (economics)Transverse planeMaterials scienceSemiconductor memoryTopological Materials and PhenomenaMagnetic Field Sensors TechniquesGraphene research and applications
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