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Useful Links for Trapped Ion Quantum Computing
Trapped ion quantum computing is a rapidly advancing field with numerous resources available for those interested in learning more. Below are some useful links to tutorials, research papers, and other valuable resources.
2D chains of trapped ions
2D ion simulators
conferences
Digital predistortion of optical field of a fast and high-fidelity entangling gate for trapped ions qubits
We present a digital pre-distortion technique to improve the fidelity of entangling gates in trapped ion qubits. By characterizing and correcting the non-linear response of an acousto-optic modulator, our method enables accurate modulation of the optical field, allowing for fast...
Programmable quantum simulations on a trapped-ions quantum computer with a global drive
Our method enables quantum simulations of programmable spin-Hamiltonians, using only simple global fields, driving all qubits homogeneously and simultaneously.
Programmable Global Ising Dynamics and Predistorted Gate Control in Trapped Ions
Global entangling gates reduce control complexity for quantum simulation, and digital predistortion enables faster gates without sacrificing fidelity.
Digital Predistortion of Optical Field for Fast, High-Fidelity Entangling Gate in Trapped Ion Qubits
Abstract: Tapped ion qubits are a leading quantum computing platform. In these systems, entangling gates are performed by driving the normal modes of motion of the ion chain, generating a spin-dependent force that mediates qubit-qubit interactions.
portfolio
Ion Landscape Permalink
A world map of trapped ion researchers.
publications
Calibration of the momentum scale of a particle physics detector using the Armenteros-Podolanski plot
Published in Journal of Instrumentation, 2021
A method for calibrating the momentum scale in a particle physics detector is described. The method relies on the determination of the masses of the final state particles in two-body decays of neutral particles, which can then be used to...
The inverse Mpemba effect demonstrated on a single trapped ion qubit
Published in Physical Review Letters, 2024
Here we propose a quantum analog of the Mpemba effect, on the simplest quantum system, a qubit. Specifically, we show it exhibits an inverse effect, in which a cold qubit reaches a hot temperature faster than a hot qubit. Furthermore,...
Programmable quantum simulations on a trapped-ions quantum computer with a global drive
Published in Physical Review Letters, 2025
Our method enables quantum simulations of programmable spin-Hamiltonians, using only simple global fields, driving all qubits homogeneously and simultaneously.
Digital Predistortion of Optical Fields for Fast and High-Fidelity Entangling Gates in Trapped-Ion Qubits
Published in arXiv preprint, 2026
We demonstrate digital predistortion of an acousto-optic modulator used to generate multi-tone entangling-gate waveforms in a trapped-ion processor based on 88Sr+, suppressing spurious intermodulation products and approximately doubling the usable diffraction efficiency at a 10−3 gate-error threshold.
resources
talks
Tutorial in Theoretical Classical Mechanics
I conducted a tutorial on theoretical classical mechanics for students attending the Physics Seminar 2. The session began with a lecture introducing the concepts of Lagrangian, action, and the variational principle. This was followed by a problem-solving session. The lecture...
Digital Predistortion of Optical Field of a Fast and High-Fidelity Entangling Gate for Trapped Ion Qubits
Tapped ions qubits are a leading quantum computing platform. In these systems, entangling gates are performed by driving the normal modes of motion of the ion chain, generating a spin-dependent force that mediates qubit-qubit interactions. In recent years, there have...
Quantum Computers and What to Do with Them
This talk, presented in Belgrade, covers the topic of quantum computers and their potential applications. It was delivered at the Annual New Year Seminar at the Faculty of Physics, University of Belgrade. The discussion includes an overview of quantum computing...
Quantum Computing Workshop — Petnica Science Center (Physics Seminar)
I delivered a two-day, 8-hour hands-on workshop (4 hours per day) on quantum computing for the Physics Seminar at Petnica Science Center, held on September 5th and 6th, 2025. The course was based on the University of Cambridge’s Quantum Computing...
teaching
Teaching experience 1
Undergraduate course, University 1, Department, 2014
This is a description of a teaching experience. You can use markdown like any other post.
Teaching experience 2
Workshop, University 1, Department, 2015
This is a description of a teaching experience. You can use markdown like any other post.