Litcius/Paper detail

Artificial-intelligence-driven scanning probe microscopy

Alexander Krull, P. B. Hirsch, Carsten Rother, Agustin Schiffrin, Cornelius Krull

2020Communications Physics183 citationsDOIOpen Access PDF

Abstract

Abstract Scanning probe microscopy (SPM) has revolutionized the fields of materials, nano-science, chemistry, and biology, by enabling mapping of surface properties and surface manipulation with atomic precision. However, these achievements require constant human supervision; fully automated SPM has not been accomplished yet. Here we demonstrate an artificial intelligence framework based on machine learning for autonomous SPM operation (DeepSPM). DeepSPM includes an algorithmic search of good sample regions, a convolutional neural network to assess the quality of acquired images, and a deep reinforcement learning agent to reliably condition the state of the probe. DeepSPM is able to acquire and classify data continuously in multi-day scanning tunneling microscopy experiments, managing the probe quality in response to varying experimental conditions. Our approach paves the way for advanced methods hardly feasible by human operation (e.g., large dataset acquisition and SPM-based nanolithography). DeepSPM can be generalized to most SPM techniques, with the source code publicly available.

Topics & Concepts

Scanning probe microscopyConvolutional neural networkComputer scienceArtificial intelligenceArtificial neural networkScanning tunneling microscopeMicroscopyReinforcement learningDeep learningScanning ion-conductance microscopyNanotechnologyMaterials scienceOpticsScanning confocal electron microscopyPhysicsForce Microscopy Techniques and ApplicationsSurface and Thin Film PhenomenaAdvanced Electron Microscopy Techniques and Applications