Tuning Resonators to Explore Quantum Spins

Summer Research: Sofia Davvetas '25 conducts lab work on Molecular Nanomagnets

Allentown, PA (10/12/2022) — Molecular nanomagnets are tiny magnets whose spin states can be controlled by electron spin resonance. Molecular nanomagnets can be used as quantum bits, qubits. Unlike a classical computer that uses bits to store information in a state of 0 or 1, a quantum computer uses qubits that store information in a state of 0, 1, or any superposition of 0 and 1. Quantum computers are beneficial as they are able to outperform classical computers in certain applications. The goal of our lab is to explore the viability of various molecular nanomagnet systems as spin qubits. My project goal is to get resonators on resonance in order to see how the spins of the molecular nanomagnet Cr7Mn behave in a magnetic field. Resonators need to be on resonance with their samples in order to match the energy splitting and be able to obtain valuable data.

"Through this experience I have learned how patience and attention to detail are important when researching. Although continually seeing results other than what is expected can be frustrating, it makes the moment when things work out worth it. I am excited to continue working on this project during the semester and am looking forward to expanding my project."

Media Attachments