Würzburg 2018 – wissenschaftliches Programm
Bereiche | Tage | Auswahl | Suche | Aktualisierungen | Downloads | Hilfe
AKBP: Arbeitskreis Beschleunigerphysik
AKBP 11: Synchrotron Radiation Sources, Hadron Accelerators and Colliders
AKBP 11.4: Vortrag
Donnerstag, 22. März 2018, 17:15–17:30, NW-Bau - HS5
Recent laser cooling experiments at the ESR — •Sebastian Klammes1,2, Danyal Winters1, Thomas Walther2, Daniel Kiefer2, Lewin Eidam2, Oliver Boine-Frankenheim1,2, Axel Buß3, Christian Egelkamp3, Volker Hannen3, Zhongkui Huang4, Thomas Kühl1,5, Markus Löser6,7, Xinwen Ma4, Fritz Nolden1, Wilfried Nörtershäuser2, Rodolfo Sanchez Alarcon1, Ulrich Schramm6,7, Mathias Siebold6, Peter Spiller1, Markus Steck1, Thomas Stöhlker1,5,8, Johannes Ullmann2,8, Hanbing Wang4, Weiqiang Wen4, Christian Weinheimer3, Daniel Winzen3, and Michael Bussmann6 — 1GSI Darmstadt — 2TU-Darmstadt — 3Uni Münster — 4IMP Lanzhou — 5HI-Jena — 6HZDR Dresden — 7TU-Dresden — 8Uni-Jena
In terms of observing relativistic effects and verifying the predictions of quantum electrodynamics, stored particles of high energy with a small momentum spread and small emittance are of great interest in current atomic physics and accelerator research. Due to its effectivity at high energies, laser cooling has proven to be a potentially powerful tool in recent years. Laser cooling is a longitudinal beam cooling method and is based on the resonant absorption and the subsequent spontaneous emission (fluorescence) of photons by ions [1]. We will show results of recent laser cooling experiments performed at the ESR at GSI Darmstadt, Germany [2]. [1] M. Bussmann, ICFA Beam Dyn. Newslett. 65 (2014). [2] D. Winters et al., Phys. Scr. T166 014048 (2015).