Two dimensional heterostructures are likely to provide new avenues for the
manipulation of magnetization that is crucial for spintronics or
magnetoelectronics. Here, we demonstrate that optical spin pumping can generate
a large effective magnetic field in two dimensional MoSe2/WSe2
heterostructures. We determine the strength of the generated field by
polarization-resolved measurement of the interlayer exciton photoluminescence
spectrum: the measured splitting exceeding 10 milli-electron volts (meV)
between the emission originating from the two valleys corresponds to an
effective magnetic field of ~ 30 T. The strength of this optically induced
field can be controlled by the excitation light polarization. Our finding opens
up new possibilities for optically controlled spintronic devices based on van
der Waals heterostructures