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Q: Fachverband Quantenoptik und Photonik

Q 56: Ultra-cold plasmas and Rydberg systems III (joint session A/Q)

Q 56.7: Vortrag

Freitag, 13. März 2020, 12:45–13:00, b305

An optogalvanic flux sensor for trace gases — •Fabian Munkes^1,2, Patrick Kaspar^1,2, Yannick Schellander^1,2, Johannes Schmidt^1,2,4, Denis Djekic^2,3, Patrick Schalberger^2,4, Holger Baur^2,4, Robert Löw^1,2, Tilman Pfau^1,2, Jens Anders^2,3, Norbert Frühauf^2,4, Edward Grant⁵, and Harald Kübler^1,2 — ¹5. Physikalisches Institut — ²Center for Integrated Quantum Science and Technology — ³Institut für Intelligente Sensorik und Elektrotechnik — ⁴Institut für Großflächige Mikroelektronik — ⁵Department of Chemistry University of British Columbia

We demonstrate the applicability of a new kind of gas sensor based on Rydberg excitations. From a gas mixture the molecule in question is excited to a Rydberg state. By succeeding collisions with all other gas components this molecule becomes ionized and the emerging electron can be measured as a current, which is the clear signature of the presence of this particular molecule. As a first test we excite Alkali Rydberg atoms in an electrically contacted vapor cell [1,2] and demonstrate a detection limit of 100 ppb to a background of N₂. For a real life application, we employ our gas sensing scheme to the detection of nitric oxide at thermal temperatures and atmospheric pressure [3]. We show first results of cw spectroscopy of the A ²Σ⁺ ← X ²Π_1/2 transition in NO.

[1] D. Barredo, et al., Phys. Rev. Lett. 110, 123002 (2013)

[2] J. Schmidt, et al., SPIE 10674 (2018)

[3] J. Schmidt, et al., Appl. Phys. Lett. 113, 011113 (2018)