Local Manipulation of Superconducting Penetration Depth Probed by Magnetic Force Microscopy

Itai Keren; Tatiana Alexandra Webb; Jikai Xu; Shuai Zhang; Dihao Sun; Brian Sae Yoon Kim; Rohit P Prasankumar; Stuart Wolf; Kazushi Kanoda; Kazuya Miyagawa; Angel Rubio; Andrea Cavalleri; Abhay Pasupathy; Dmitri N Basov

Local Manipulation of Superconducting Penetration Depth Probed by Magnetic Force Microscopy

ORAL

Abstract

Superconductivity results from attractive interactions between electrons, and controlling these interactions by modifying the surrounding environment offers an exciting research opportunity. One way to observe this control is through the variation of superconducting properties near the surface. In this work, we employ Magnetic Force Microscopy (MFM) to measure the Meissner screening force, allowing us to locally probe the superconducting penetration depth (λ). By altering the surrounding dielectric environment, we are able to modify λ locally. Additionally, we observe clear signatures of Meissner repulsion in samples much thinner than λ.

March 19, 2025, 8:36 PM – March 19, 2025, 8:48 PM

Presenters

Itai Keren

Columbia University

Authors

Itai Keren

Columbia University
Tatiana Alexandra Webb

Columbia University
Jikai Xu

Columbia University
Shuai Zhang

Columbia University
Dihao Sun

Columbia University
Brian Sae Yoon Kim

Columbia University
Rohit P Prasankumar

Intellectual Ventures Management, LLC
Stuart Wolf

Intellectual Ventures Management, LLC
Kazushi Kanoda

Univ of Tokyo
Kazuya Miyagawa

Univ of Tokyo
Angel Rubio

Max Planck Institute for the Structure & Dynamics of Matter, Max Planck Institute for the Structure & Dynamics of Matter; Flatiron Institute's Center for Computational Quantum Physics (CCQ) & Initiative for Computational Catalysis (ICC)
Andrea Cavalleri

Max Planck Institute for the Structure & Dynamics of Matter
Abhay Pasupathy

Columbia University, Brookhaven National Laboratory (BNL)
Dmitri N Basov

Columbia University