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A: Fachverband Atomphysik

A 41: Poster Session IIIa

A 41.4: Poster

Donnerstag, 8. März 2018, 16:15–18:15, Orangerie

Towards a shotnoise limited optogalvanic vapor cell — •Markus Fiedler^1,5, Johannes Schmidt^1,5, Ralf Albrecht^1,5, Patrick Schalberger^2,5, Holger Baur^2,5, Robert Löw^1,5, Harald Kübler^1,5, Denis Djekic^3,5, Jens Anders^4,5, Norbert Frühauf^2,5, and Tilman Pfau^1,5 — ¹5th Institute of Physics — ²Institute for Large Area Microelectronics — ³Institute for Microelectronics, University of Ulm — ⁴Institute for Theory of Electrotechnology — ⁵University of Stuttgart, Center for Integrated Quantum Science and Technology (IQST)

We show how we want to integrate a shotnoise limited ion current detection into an optogalvanic vapor cell. Such a device can be used as a sensitive detector for electric and magnetic fields as well as highly excited atoms and molecules. We excite Alkali Rydberg atoms in an electrically contacted vapor cell [1,2]. These atoms are ionized due to collisions with the background gas. A voltage directs these charges towards the electrodes on the inside of the cell, where they are detected with an amplification circuit. Those circuits need to provide stable, low noise amplification under changing environmental conditions. Circuits based on thin film [3] and CMOS [4] technology are proposed. Furthermore, a random sampling Lock-In method aimed at achieving high bandwidth is discussed.
[1] D. Barredo, et al., Phys. Rev. Lett. 110, 123002 (2013)
[2] R. Daschner, et al., Opt. Lett. 37, 2271 (2012)
[3] P. Schalberger, et al., JSID 19, 496-502 (2011)
[4] D. Djekic, et al., ESSCIRC 43, 1386 (2017)