11. Can a flavour conserving treatment improve things?, E. Mendel, Nucl. Phys. A642, 282 (1998). (hep-lat/9807004). GET IT

10. QCD at finite baryon density with t-asymmetric fermions, E. Mendel and L. Polley, Nucl. Phys. B42 (Proc. Suppl), 535, (1995). ( : 9501012). GET IT

9. Negative-energy spinors and the Fock space of lattice fermions at finite chemical potential, E. Mendel and L. Polley, Z. Phys. C 65, 127 (1995). GET IT

8. Finite density results for Wilson fermions using the volume method, W. Wilcox, S. Trendafilov and E. Mendel, Nucl. Phys. B42 (Proc. Suppl), 557 (1995). (hep-lat: 9501011). GET IT

7. Extrapolation to nature of finite baryon density lattice results using quantum Monte Carlo, E. Mendel, Nucl. Phys. B34 (Proc. Suppl.), 304, (1994). GET IT

6. Path integral formalism for a simple interacting nucleon model, E. Mendel, Nucl. Phys. B30 (Proc. Suppl.), 944, (1993). GET IT

5. Finite Baryon Density in lattice simulations and nuclear matter, E. Mendel, Nucl. Phys. B387, 485, (1992). GET IT

4. Nucleon degeneracy on the lattice explains early baryon density onset, E. Mendel, Nucl. Phys. B20 (Proc. Suppl.), 343, (1991). GET IT

3. QCD at finite Chemical Potential, E. Mendel, Nucl. Phys. B9 (Proc. Suppl.), 347, (1989). GET IT

2. Hadronic structure by introducing Chemical Potential, E. Mendel, Nuclear Physics B4 (Proc. Suppl.), 308, (1988). GET IT

1. Hadronic structure using lattice QCD with Chemical Potential, E. Mendel. Technion Preprint, TECHNION-PH-86-16, March 1986. GET IT