TY - THES ID - 146393991 TI - Multiple Josephson Junctions interferometer tuned by electromigration AU - Lespineux, Léa AU - Silhanek, Alejandro AU - Dorbolo, Stéphane AU - Dupé, Bertrand AU - Martin, John PY - 2022 PB - Liège Université de Liège (ULiège) DB - UniCat KW - Physique, chimie, mathématiques & sciences de la terre > Physique UR - https://www.unicat.be/uniCat?func=search&query=sysid:146393991 AB - Suggested and implemented in 1964 by R.C. Jaklevic, J. Lambe, A.H. Silver and J. E. Mercereau, Direct Current Superconducting QUantum Interference Devices (DC SQUIDs) are magnetic flux-to-voltage converters that offer an unequalled sensitivity in magnetic field measurement, being able to detect fields amplitude down to 1E-17 T. This exceptional sensitivity coupled to their high frequency operating rate and reduced noise, makes DC SQUIDs the ideal sensors for a broad range of applications including magnetic resonance analysis, microscopic imaging techniques, cosmology, biomagnetic, magnetotellurics and interferometry. 
However, SQUID magnetometers' most sensitive domains of applications – e.g. spintronics – require for the devices' size to shrink down to the nanometer scale, where numerous challenges remain in terms of noise, sensitivity and nanofabrication techniques. In this context, we propose electromigration as a robust, simple and scalable tool to tailor SQUIDs' junctions down to a few nanometers in order to improve their performances. We demonstrate in the present work the power of the technique to induce modifications in devices consisting of one to three junctions in parallel. In addition, we introduce a simulation-based study which aims to provide new insights into the electromigration process by computing the device's modifications step-by-step, which allows us to improve our comprehension on the local effects of electromigration. ER -