A consistently diamagnetic persistent current (PC) of period halving (Phi(0)/2-current) observed in mesoscopic rings is in apparent contradiction with the theoretical prediction of barely exclusively paramagnetism. By developing a super-cell method, we analytically and numerically study the magnetic response mechanics of non-interacting mesoscopic rings in both the absence and presence of random disorder. A maximal paramagnetic and/or diamagnetic PC is obtained in primary Phi(0)- and/or Phi(0)/2-period, exhibiting a remarkable quantum size effect. It is shown that for lower free energy, an electron circling the ring accumulates an additional phase on each inter-channel transition induced by magnetic flux, leading to the period halving and the paramagnetic-diamagnetic transition. Our results can well mediate the disputes between the experiments and theory.

• 出版日期2014-10
• 单位南京大学; 湘潭大学