In this paper, we use stimulated Raman adiabatic passage technique to implement single-qutrit quantum gates in tripod systems. It is shown by using the Morris-Shore (MS) transformation, the six-state problem with 5 pulsed fields can be reduced to a basis that decouples two states from the others. This imposes three pulses not connected to the initial condition with have the same shape. Using this method, the six-state penta-pod system is reduced to a tripod system. We can design single-qutrit quantum gates by ignoring the fragile dynamical phase, and by suitable design of Rabi frequencies of the effective Hamiltonian
Amniat-Talab,M. , Golkar,S. and Nasser,S. (2019). Designing single-qutrit quantum gates via tripod adiabatic passage. Iranian Journal of Physics Research, 14(1), 55-64.
MLA
Amniat-Talab,M. , , Golkar,S. , and Nasser,S. . "Designing single-qutrit quantum gates via tripod adiabatic passage", Iranian Journal of Physics Research, 14, 1, 2019, 55-64.
HARVARD
Amniat-Talab M., Golkar S., Nasser S. (2019). 'Designing single-qutrit quantum gates via tripod adiabatic passage', Iranian Journal of Physics Research, 14(1), pp. 55-64.
CHICAGO
M. Amniat-Talab, S. Golkar and S. Nasser, "Designing single-qutrit quantum gates via tripod adiabatic passage," Iranian Journal of Physics Research, 14 1 (2019): 55-64,
VANCOUVER
Amniat-Talab M., Golkar S., Nasser S. Designing single-qutrit quantum gates via tripod adiabatic passage. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 14(1): 55-64.
