Ultra-fast two-qubit ion gate using sequences of resonant pulses
E Torrontegui, D Heinrich, MI Hussain… - New Journal of …, 2020 - iopscience.iop.org
We propose a new protocol to implement ultra-fast two-qubit phase gates with trapped ions
using spin-dependent kicks induced by resonant transitions. By only optimizing the …
using spin-dependent kicks induced by resonant transitions. By only optimizing the …
Digital quantum simulation of an extended Agassi model: Using machine learning to disentangle its phase-diagram
A digital quantum simulation for the extended Agassi model is proposed using a quantum
platform with eight trapped ions. The extended Agassi model is an analytically solvable …
platform with eight trapped ions. The extended Agassi model is an analytically solvable …
Resource overheads and attainable rates for trapped-ion lattice surgery
We present estimates for the number of ions needed to implement fault-tolerant lattice
surgery between spatially separated trapped-ion surface codes. Additionally, we determine …
surgery between spatially separated trapped-ion surface codes. Additionally, we determine …
Fast entangling gates in long ion chains
We present a model for implementing fast entangling gates (∼ 1 μ s) with ultrafast pulses in
arbitrarily long ion chains, that requires low numbers of pulses and can be implemented with …
arbitrarily long ion chains, that requires low numbers of pulses and can be implemented with …
[PDF][PDF] A digital quantum simulation of an extended Agassi model assisted by machine learning
Á Sáiz, JE Garcıa-Ramos, JM Arias, L Lamata… - arXiv e …, 2022 - researchgate.net
A digital quantum simulation for the extended Agassi model is proposed using a quantum
platform with eight trapped ions. The extended Agassi model is an analytically solvable …
platform with eight trapped ions. The extended Agassi model is an analytically solvable …