@inproceedings{oai:niigata-u.repo.nii.ac.jp:00030994,
 author = {Saito, H. and Aoki, S. and Kanaya, K. and Ohno, H. and Ejiri, S. and Nakagawa, Y. and Hatsuda, T. and Umeda, T. and WHOT-QCD, Collaboration},
 book = {PoS - Proceedings of Science, PoS - Proceedings of Science},
 issue = {214},
 month = {Jul},
 note = {We extend our previous study of the QCD phase structure in the heavy quark region to non-zero chemical potentials. To identify the critical point where the first order deconfining transition terminates, we study an effective potential defined by the probability distribution function of the plaquette and the Polyakov loop. The reweighting technique is shown to be powerful in evaluating the effective potential in a wide range of the plaquette and Polyakov loop expectation values. We adopt the cumulant expansion to overcome the sign problem in the calculation of complex phase of the quark determinant. We find that the method provides us with an intuitive and powerful way to study the phase structure. We estimate the location of the critical point at finite chemical potential in the heavy quark region., The XXIX Internaitonal Symposium on Lattice Field Theory, Lattice2011 July 11-16, 2011 The Village at Squaw Valley, US},
 pages = {1--7},
 publisher = {SISSA},
 title = {Finite density QCD phase transition in the heavy quark region},
 volume = {Lattice2011},
 year = {2011}
}