Valley splitting of Si/SiGe heterostructures in tilted magnetic fields
Abstract
We have investigated the valley splitting of two-dimensional electrons in high quality Si/Si1-xGex heterostructures under tilted magnetic fields. For all the samples in our study, the valley splitting at filling factor =3 (3) is significantly different before and after the coincidence angle, at which energy levels cross at the Fermi level. On both sides of the coincidence, a linear density dependence of 3 on the electron density was observed, while the slope of these two configurations differs by more than a factor of two. We argue that screening of the Coulomb interaction from the low-lying filled levels, which also explains the observed spin-dependent resistivity, is responsible for the large difference of 3 before and after the coincidence.
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