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29–31 May 2024
Wilson Hall
America/Chicago timezone

Incorporating Phonon Kinematics of Novel Materials in G4CMP to Study Qubit Chip Response to Energy Deposits

Not scheduled
20m
2nd Floor Crossover (Wiilson Hall)

2nd Floor Crossover

Wiilson Hall

Description

The Geant4 Condensed Matter Physics (G4CMP) toolkit was designed to simulate the transport of charge and phonons in detectors made of Silicon and Germanium. Through these simulations, the toolkit effectively reproduces phenomena such as heat-pulse propagation times, average charge-carrier drift velocities, and phonon caustics. However, its limitation to Silicon and Germanium restricts its applicability to other fields such as material and quantum science research, as well as the exploration of new materials for Dark Matter detection. To address this, we expand the capabilities of G4CMP to include several novel materials like Sapphire (Al2O3), Gallium Arsenide (GaAs), Lithium Fluoride (LiF). Specifically, we integrate parameters to facilitate the phonon kinematics simulations in G4CMP. We present various phonon caustic patterns for these materials and compare them with experimental phonon caustic images. Additionally, we create a comprehensive simulation framework, utilizing G4CMP, to assess the performance metrics of qubit chips operating in a gate-based “energy relaxation” readout scheme.

Primary authors

Dr Israel Hernandez (Illinois Institute of Technology) Rakshya Khatiwada Ryan Linehan (Fermi National Accelerator Laboratory)

Presentation materials

There are no materials yet.