Physics – Nuclear Physics – Nuclear Theory
Scientific paper
2004-11-18
Physics
Nuclear Physics
Nuclear Theory
12 pages,6 figures
Scientific paper
Collisions of metastable antiprotonic helium with atoms of medium induce transitions between hyperfine structure sublevels as well as shifts and broadenings of the microwave M1 spectral lines. We consider these phenomena in the framework of a model with scalar and tensor interactions between antiprotonic and ordinary helium atoms. S-matrix is obtained by solving coupled-channels equations involving 4 HFS sublevels (F=L\pm 1/2, J=F\pm 1/2) of the nL level and relative angular momenta up to l=5 at the kinetic energy E<25 K. The calculated spin-flip cross sections are less than elastic ones by four orders of value in the case \Delta J=\pm 1, and by seven orders of value in the case \Delta F=\pm 1, \Delta J=0 or \Delta J=\pm 2. The considered cross sections reveal a resonance behaviour at very low energy (E about 1 - 4 K depending on the model parameters). At the density N=3\times 10^{20} cm^{-3} and T=6 K we obtain the relaxation time =160 ns, the frequency shift \Delta\nu\ = 80 kHz and the frequency broadening \gamma \lesssim 5.9 MHz for M1 spectral lines of the favored transitions (\Delta F=\pm 1, \Delta J=\pm 1). The results are compatible with the recent experimental data obtained by a laser-microwave-laser resonance method. With the temperature rising up to 25 K the rate of relaxation \lambda=1/\tau as well as shift and broadening of the M1 microwave lines are lowered by a factor 1.5 - 2 reflecting the displacement of a mean kinetic energy from the region of resonance scattering.
Korenman Ya. G.
Yudin S. N.
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