Dispersion and energy spectrum of spin excitations in an underdoped La1.90Sr0.10CuO4

Abstract

We performed inelastic neutron experiments on underdoped La2-xSrxCuO4(x=0.10, Tc=28.6K) using a time-of-flight neutron scattering technique. Four incommensurate peaks on the two-dimensional reciprocal plane disperse inwards toward an antiferromagnetic zone center as the energy increases. These peaks merge into a single peak at an energy Ecross around w=40+-3meV. Beyond Ecross, the peak starts to broaden and ``hourglass-like'' excitations are observed. The Ecross in the underdoped sample is smaller than that reported for the optimally doped La1.84Sr0.16CuO4. The reduction of the Ecross is explained by the doping-independent slope of the downward dispersion below the Ecross combined with the smaller incommensurability in the underdoped sample. In the energy spectrum of chi"(w), we observed a similar "peak-dip-hump" structure in the energy region of 10~45meV to that reported for the optimally doped sample. We discuss the relation between the hourglass-shaped dispersion and the peak-dip-hump energy spectrum.