Precision neutrino oscillation physics with an intermediate baseline reactor neutrino experiment

We discuss the physics potential of intermediate Lsimilar to20-30 km baseline experiments at reactor facilities. Assuming that the solar neutrino oscillation parameters Deltam(circle dot)(2) and theta(circle dot) lie in the high LMA solution region, we show that such an intermediate baseline reactor experiment can determine both Deltam(circle dot)(2) and theta(circle dot) with a remarkably high precision. We perform also a detailed study of the sensitivity of the indicated experiment to Deltam(atm)(2), which drives the dominant atmospheric nu(mu) ((nu) over bar (mu)) oscillations, and to theta-the neutrino mixing angle limited by the data from the CHOOZ and Palo Verde experiments. Irrespective of the actual values of Deltam(circle dot)(2), we find that this experiment can improve the bounds on sin(2)theta, and, if the value of sin(2)theta is large enough, sin(2)thetagreater than or similar to0.02, the energy resolution of the detector is sufficiently good and if the statistics is relatively high, it can determine with extremely high precision the value of Deltam(atm)(2). We also explore the potential of the intermediate baseline reactor neutrino experiment for determining the type of the neutrino mass spectrum, which can be with normal or inverted hierarchy, assuming Deltam(circle dot)(2) to lie in the high LMA solution region. We show that the conditions under which the type of neutrino mass hierarchy can be determined are quite challenging, but are within the reach of the experiment under discussion.