We have performed a photoemission study of YbInCu4, which undergoes a first
-order phase transition at T-v similar or equal to 40 K between the low-tem
perature intermediate-valence state and the high-temperature local-moment s
tate. The Yb 4f photoemission peak (Kondo peak) just below the Fermi level,
which probably originates from the subsurface region of the YbInCu4 sample
s but tracks the valence transition in the bull; YbInCu4, has been studied
above and below T-v. It has been found that the 4f photoemission peak is sh
ifted from similar to - 35 meV at 75 K to -40 meV at 7 K. By analyzing the
4f peak position and the Yb valence in the two phases using the Anderson im
purity model, we find that the bare 4f level, which is located close to the
Fermi level, is shifted downward and the hybridization strength decreases
in going from the high-temperature to low-temperature phases. (C) 2001 Publ
ished by Elsevier Science Ltd.