Zuned Ahmed scite author profile

Zuned Ahmed

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A cantilever-based, ultrahigh-vacuum, low-temperature scanning probe instrument for multidimensional scanning force microscopy

Liu¹,

Ahmed²,

Vranjkovic³

et al. 2022

Beilstein J. Nanotechnol.

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Cantilever-based atomic force microscopy (AFM) performed under ambient conditions has become an important tool to characterize new material systems as well as devices. Current instruments permit robust scanning over large areas, atomic-scale lateral resolution, and the characterization of various sample properties using multifrequency and multimodal AFM operation modes. Research of new quantum materials and devices, however, often requires low temperatures and ultrahigh vacuum (UHV) conditions and, more specifically, AFM instrumentation providing atomic resolution. For this, AFM instrumentation based on a tuning fork force sensor became increasingly popular. In comparison to microfabricated cantilevers, the more macroscopic tuning forks, however, lack sensitivity, which limits the measurement bandwidth. Moreover, multimodal and multifrequency techniques, such as those available in cantilever-based AFM carried out under ambient conditions, are challenging to implement. In this article, we describe a cantilever-based low-temperature UHV AFM setup that allows one to transfer the versatile AFM techniques developed for ambient conditions to UHV and low-temperature conditions. We demonstrate that such a cantilever-based AFM offers experimental flexibility by permitting multimodal or multifrequency operations with superior force derivative sensitivities and bandwidths. Our instrument has a sub-picometer gap stability and can simultaneously map not only vertical and lateral forces with atomic-scale resolution, but also perform rapid overview scans with the tip kept at larger tip–sample distances for robust imaging.

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A cantilever-based, ultra-high vacuum, low temperature scanning probe instrument for multidimensional scanning force microscopy

Liu¹,

Ahmed²,

Vranjkovic³

et al. 2022

Preprint

View full text Add to dashboard Cite

Cantilever-based atomic force microscopy (AFM) performed under ambient conditions has become an important tool to characterize new material systems as well as devices. Current instruments permit robust scanning over large areas, atomic scale lateral resolution and the characterization of various sample properties using multifrequency and multimodal AFM operation modes. Research of new quantum materials and devices however, often requires low temperatures and ultra-high vacuum (UHV) conditions. In this article, we describe a cantilever-based low temperature UHV AFM setup that allows to transfer of the versatile AFM techniques developed for ambient conditions to UHV and low temperature conditions. We demonstrate that such a cantilever-based AFM offers experimental flexibility by permitting multimodal or multifrequency operations with superior force derivative sensitivities and bandwidths. Our instrument has a sub-picometer gap stability and can simultaneously map not only vertical and lateral forces with atomic-scale resolution, but also perform rapid overview scans with the tip kept at larger tip-sample distances for robust imaging.

show abstract

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Zuned Ahmed

A cantilever-based, ultrahigh-vacuum, low-temperature scanning probe instrument for multidimensional scanning force microscopy

A cantilever-based, ultra-high vacuum, low temperature scanning probe instrument for multidimensional scanning force microscopy

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