Simulations of dynamically corrected gates in silicon singlet-triplet qubits

Quantum information processing (QIP) requires extremely high-fidelity gates for its operation. Having long coherence times, spin qubits are promising candidates for QIP. However, charge and hyperfine noise in these systems limit gate fidelities. Dynamically corrected gates (DCG) can help reduce the errors due to these noise sources. Here we report simulations of identity and Hadamard DCGs to correct for hyperfine noise with high fidelity.