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Combining electron spin resonance spectroscopy with scanning tunneling microscopy at high magnetic fields

Robert Drost, Maximilian Uhl, Piotr Kot, Janis Siebrecht, Alexander Schmid, Jonas Merkt, S. Wünsch, M. Siegel, Oliver Kieler, R. Kleiner, Christian R. Ast

2022Review of Scientific Instruments21 citationsDOIOpen Access PDF

Abstract

The continuous increase in storage densities and the desire for quantum memories and computers push the limits of magnetic characterization techniques. Ultimately, a tool that is capable of coherently manipulating and detecting individual quantum spins is needed. Scanning tunneling microscopy (STM) is the only technique that unites the prerequisites of high spatial and energy resolution, low temperature, and high magnetic fields to achieve this goal. Limitations in the available frequency range for electron spin resonance STM (ESR-STM) mean that many instruments operate in the thermal noise regime. We resolve challenges in signal delivery to extend the operational frequency range of ESR-STM by more than a factor of two and up to 100 GHz, making the Zeeman energy the dominant energy scale at achievable cryogenic temperatures of a few hundred millikelvin. We present a general method for augmenting existing instruments into ESR-STM to investigate spin dynamics in the high-field limit. We demonstrate the performance of the instrument by analyzing inelastic tunneling in a junction driven by a microwave signal and provide proof of principle measurements for ESR-STM.

Topics & Concepts

Scanning tunneling microscopeSpin polarized scanning tunneling microscopyScanning tunneling spectroscopyZeeman effectSpin (aerodynamics)Quantum tunnellingZeeman energyMagnetic resonance force microscopySpectroscopyCondensed matter physicsMagnetic fieldInelastic electron tunneling spectroscopyPhysicsMaterials scienceAtomic physicsFerromagnetic resonanceQuantum mechanicsMagnetizationThermodynamicsQuantum and electron transport phenomenaMolecular Junctions and NanostructuresMechanical and Optical Resonators
Combining electron spin resonance spectroscopy with scanning tunneling microscopy at high magnetic fields | Litcius