Quantum logic for the control and manipulation of molecular ions using a frequency comb
Quantum logic for the control and manipulation of molecular ions using a frequency comb
Due to their rich level structure, molecules are well-suited for probing time variation of fundamental constants, precisely measuring parity violation and time-reversal non-invariance effects, studying quantum mechanical aspects of chemical reactions, and implementing scalable quantum information processing architectures. Molecular ions are particularly attractive for these applications due to their long …