CERN Accelerating science

Preprint
Report number	arXiv:1303.2831
Title	Microwave spectroscopic study of the hyperfine structure of antiprotonic helium-3
Author(s)	Friedreich, Susanne (Stefan Meyer Inst. Subatomare Phys.) ; Barna, Daniel (Tokyo U. ; Budapest, RMKI) ; Caspers, Fritz (CERN) ; Dax, Andreas (Tokyo U.) ; Hayano, Ryugo S (Tokyo U.) ; Hori, Masaki (Tokyo U. ; Garching, Max Planck Inst.) ; Horváth, Dezső (Budapest, RMKI ; Debrecen, Inst. Nucl. Res.) ; Juhász, Bertalan (Stefan Meyer Inst. Subatomare Phys.) ; Kobayashi, Takumi (Tokyo U.) ; Massiczek, Oswald (Stefan Meyer Inst. Subatomare Phys.) ; Sótér, Anna (Garching, Max Planck Inst.) ; Todoroki, Koichi (Tokyo U.) ; Widmann, Eberhard (Stefan Meyer Inst. Subatomare Phys.) ; Zmeskal, Johann (Stefan Meyer Inst. Subatomare Phys.)
Publication	2013
Imprint	13 Mar 2013
Number of pages	15
Note	Comments: 15 pages, 9 figures. arXiv admin note: substantial text overlap with arXiv:1102.5286
Subject category	Other Fields of Physics
Abstract	In this work we describe the latest results for the measurements of the hyperfine structure of antiprotonic helium-3. Two out of four measurable super-super-hyperfine SSHF transition lines of the (n,L)=(36,34) state of antiprotonic helium-3 were observed. The measured frequencies of the individual transitions are 11.12548(08) GHz and 11.15793(13) GHz, with an increased precision of about 43% and 25% respectively compared to our first measurements with antiprotonic helium-3 [S. Friedreich et al., Phys. Lett. B 700 (2011) 1--6]. They are less than 0.5 MHz higher with respect to the most recent theoretical values, still within their estimated errors. Although the experimental uncertainty for the difference of 0.03245(15) GHz between these frequencies is large as compared to that of theory, its measured value also agrees with theoretical calculations. The rates for collisions between antiprotonic helium and helium atoms have been assessed through comparison with simulations, resulting in an elastic collision rate of {\gamma}_e = 3.41 +- 0.62 MHz and an inelastic collision rate of {\gamma}_i = 0.51 +- 0.07 MHz.
Other source	Inspire