We present an investigation into the manipulation of nuclear spins near the
ν=1 quantum Hall state of GaAs/AlGaAs using optical pumping methods. For this, we have built a custom-designed
polarization controller which allows for arbitrary
polarizations of near-infrared laser light to be transmitted through fiber optics onto the sample. Using resistive readout, it is demonstrated that different
polarizations of light induce specific changes in the transport properties in the first Landau level of the GaAs/AlGaAs quantum well.