Transport and Charge Sensing in $^{12}$C and $^{13}$C Carbon Nanotube Double Quantum Dots

We report measurements of gate-defined carbon nanotube double quantum dot devices with a charge sensor fabricated on the same nanotube. The methane used during growth controls the $^{13}$C content of the nanotubes. $^{12}$C nuclei have zero nuclear spin, and $^{13}$C nuclei have spin 1/2. We compare samples with natural abundance (1\%) and enriched (99\%) $^{13}$C content. A strong isotope effect is observed in the magnetic field dependence of transport at finite bias. Fast control of these devices is demonstrated using a pulsed-gate technique.