Litcius/Paper detail

<i>In Situ</i> Sputtering From the Micromanipulator to Enable Cryogenic Preparation of Specimens for Atom Probe Tomography by Focused-Ion Beam

James O. Douglas, Michele Conroy, Finn Giuliani, Baptiste Gault

2023Microscopy and Microanalysis23 citationsDOIOpen Access PDF

Abstract

Workflows have been developed in the past decade to enable atom probe tomography analysis at cryogenic temperatures. The inability to control the local deposition of the metallic precursor from the gas-injection system (GIS) at cryogenic temperatures makes the preparation of site-specific specimens by using lift-out extremely challenging in the focused-ion beam. Schreiber et al. exploited redeposition to weld the lifted-out sample to a support. Here, we build on their approach to attach the region-of-interest and additionally strengthen the interface with locally sputtered metal from the micromanipulator. Following standard focused-ion beam annular milling, we demonstrate atom probe analysis of Si in both laser pulsing and voltage mode, with comparable analytical performance as a presharpened microtip coupon. Our welding approach is versatile, as various metals could be used for sputtering, and allows similar flexibility as the GIS in principle.

Topics & Concepts

MicromanipulatorAtom probeSputteringMaterials scienceIn situIon beamBeam (structure)IonTomographyFocused ion beamAtom (system on chip)OpticsNanotechnologyThin filmPhysicsEngineeringComputer scienceArtificial intelligenceEmbedded systemMeteorologyTransmission electron microscopyQuantum mechanicsAdvanced Materials Characterization TechniquesHydrogen embrittlement and corrosion behaviors in metalsDiamond and Carbon-based Materials Research