Bereiche | Tage | Auswahl | Suche | Aktualisierungen | Downloads | Hilfe

Q: Fachverband Quantenoptik und Photonik

Q 48: Poster – Quantum Optics, Technologies, and Optomechanics

Q 48.41: Poster

Mittwoch, 12. März 2025, 17:00–19:00, Tent

Recent Advances in Low-Cost 3D Printed Experiment Kits for Quantum Education — •Leon Sievert¹, Marina Peters¹, Dennis Stiegekötter², Jonas Homrighausen¹, Nils Haverkamp³, Peter Glösekötter², Stefan Heusler³, and Markus Gregor¹ — ¹Department of Engineering Physics, FH Münster, Germany — ²Department of Electrical Engineering and Computer Science, FH Münster, Germany — ³Institute of Physics Education Research, University of Münster

The growing interest in quantum technology in society and industry is met by an increasing demand in quantum education. This results in a need for low-cost, versatile and resilient experimental setups for research and teaching purposes.To approach this challenge, an open innovation platform has been proposed [1,2]. This combines an open-source, 3D printable setup, with low-cost hardware in a modular, tactile cube aesthetic. The freely positionable experiment parts are placed on a reliable grid structure. Experiments to measure optically detected magnetic resonance (ODMR) in microdiamond NV center ensembles[3] are a large use case for this setup. In this work, we present two major advances: A wireless module based on ESP32 was used to simplify the visualization process of sensor data [1]. Additionally, the educational setup was improved for coherent control experiments in NV center ensembles using a low-cost microcontroller setup [4]. [1] www.O3Q.de [2] www.quantumminilabs.de[3] Stegemann, J. et al. European Journal of Physics 44 (2023)[4] Stiegekötter D. et al, Sensors 24, 3138 (2024)

Keywords: NV Center; ODMR; Quantumeducation; Open Source