Prediction of the quantization of magnetic flux in double layer exciton superfluids
arXiv:1009.1793 · doi:10.1103/PhysRevB.83.012504
Abstract
Currently a way is lacking to detect unambiguously the possible phase coherence of an exciton condensate in an electron-hole double layer. Here we show that despite the fact that excitons are charge-neutral, the double layer exciton superfluid exhibits a diamagnetic response. In devices with specific circular geometry the magnetic flux threading between the layers must be quantized in units of $\frac{h}{e} Ï_m$ where $Ï_m$ is the diamagnetic susceptibility of the device. We discuss possible experimental realizations of the predicted unconventional flux quantization.
4 pages, 3 figures