Hole spin resonance in Ge double quantum dots

Spins in isotopically purified Si have shown record coherence times and fidelities making them promising candidates for scalable quantum circuits. One of the key ingredients for realizing such circuits will be a strong coupling of spins to superconducting resonators. This has been recently achieved for Si by dressing electrons with spin orbit coupling. Ge, on the other hand, has by itself strong and tunable spin orbit coupling and gives good contacts to superconductors. However, in Ge no spin qubit has been realized so far. Here we do a first important step in this direction. We demonstrate for the first time electric dipole spin resonance (EDSR) of holes in Ge. From the line width of the EDSR peak we extract a lower limit for the dephasing time of about 70\,ns. The obtained results underline the importance of Ge as an alternative system for the realization of scalable hole spin qubits.