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Physics Colloquium

Thursday, October 17, 2024
4:00pm to 5:00pm
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Online and In-Person Event
Chemical design of quantum systems
Danna Freedman, MIT,

Abstract: The unique combination of atomic-scale tunability, reproducibility, and chemical specificity make paramagnetic molecules a paradigm-shifting category of materials for quantum information science. This capability has the potential to be transformative for developing a bespoke quantum ecosystem, as, for example, the requirements for a node within a quantum communications network are distinct and potentially orthogonal to those for a quantum sensor. Our team imbued molecular qubits with the same read-out approach as defect-based systems. To achieve this, we envisioned an inverse design problem whereby we mimicked the electronic structure with an orthogonal physical structure. Using transition metal chemistry, we designed the ground state, excited states and dynamics based on straightforward ligand field analysis. By coupling optical read-out with spatial precision, we seamlessly integrated a new class of materials with existing read-out technology. We propose a pathway to use these molecular color centers as quantum sensors to read information in 2D materials. If time permits, a brief overview of a separate area of my lab will be presented on harnessing high pressure as a synthetic vector to create new quantum materials.

Join via Zoom:
https://caltech.zoom.us/j/89860951893
Meeting ID: 818 6692 9019

The colloquium is held in Feynman Lecture Hall, 201 E. Bridge.

For more information, please contact Denise Lu by email at deniselu@caltech.edu.