New article by PHYS grad student, Fernando Calderon Vargas
"Directly accessible entangling gates for capacitively coupled singlet-triplet qubits"
F. A. Calderon-Vargas and J. P. Kestner
Phys. Rev. B 91, 035301 – Published 6 January 2015
Abstract:
The recent experimental advances in capacitively coupled singlet-triplet qubits, particularly the demonstration of entanglement, opens the question of what type of entangling gates the system's Hamiltonian can produce directly via a single square pulse. We address this question by considering the system's Hamiltonian from first principles and using the representation of its nonlocal properties in terms of local invariants. In the analysis we include the three different ways in which the system can be biased and their effect on the generation of entangling gates. We find that, in one of the possible biasing modes, the Hamiltonian has an especially simple form, which can directly generate a wide range of different entangling gates including the iswap gate. Moreover, using the complete form of the Hamiltonian we find that, for any biasing mode, a cnot gate can be generated directly.
F. A. Calderon-Vargas and J. P. Kestner
Phys. Rev. B 91, 035301 – Published 6 January 2015
Abstract:
The recent experimental advances in capacitively coupled singlet-triplet qubits, particularly the demonstration of entanglement, opens the question of what type of entangling gates the system's Hamiltonian can produce directly via a single square pulse. We address this question by considering the system's Hamiltonian from first principles and using the representation of its nonlocal properties in terms of local invariants. In the analysis we include the three different ways in which the system can be biased and their effect on the generation of entangling gates. We find that, in one of the possible biasing modes, the Hamiltonian has an especially simple form, which can directly generate a wide range of different entangling gates including the iswap gate. Moreover, using the complete form of the Hamiltonian we find that, for any biasing mode, a cnot gate can be generated directly.
Posted: January 21, 2015, 11:15 AM