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$$^{149}$$Sm synchrotron-radiation-based M$"{o}$ssbauer and $$mu^+$$SR studies of Sm$$_3$$Ru$$_4$$Ge$$_{13}$$

Tsutsui, Satoshi; Ito, Takashi   ; Nakamura, Jin*; Yoshida, Mio*; Kobayashi, Yoshio*; Yoda, Yoshitaka*; Nakamura, Jumpei*; Koda, Akihiro*; Higashinaka, Ryuji*; Aoki, Dai*; Matsuda, Tatsuma*; Aoki, Yuji*

$$^{149}$$Sm SR-based M$"{o}$ssbauer and muon spin relaxation ($$mu^+$$SR) spectroscopies have been applied to Sm$$_3$$Ru$$_4$$Ge$$_{13}$$. The temperature dependence of the $$^{149}$$Sm SR-based M$"{o}$ssbauer spectra in the paramagnetic state implies the presence of dynamical nuclear Zeeman and/or quadrupole interactions. The time differential $$mu^+$$SR spectra also exhibit a marked temperature dependence in the paramagnetic state, indicating the presence of magnetic fluctuation in Sm$$_3$$Ru$$_4$$Ge$$_{13}$$ at least. These results in the present work infer that the dynamical hyperfine interactions observed using the mutually complementary spectroscopic methods are connected with the mechanism of the heavy fermion behavior in Sm$$_3$$Ru$$_4$$Ge$$_{13}$$.

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