„As some of you may recall, we initially wanted to have todays Jour Fixe as an in-person event. After the cancellation of our block lecture speaker and due to a scheduling conflict with the LUH Sommerfest, we decided to move the in-person JF at PTB to the next semester.
Nevertheless, we are pleased to announce….“
DQ-Mat is pleased to announce the next colloquium which will take place on
Thursday, 03th July 2025 ,
PTB, Vieweg- Bau, Room 133
16:00-17:30 Colloquium by Christian Roos, Universität Innsbruck
Abstract:
Trapped ions illuminated with laser light constitute an engineered quantum system that enables the realization of spin-lattice models with long-range interactions that are mediated by the collective ion motion. While linear ion strings of up to 50 ions have been used for this purpose for a long time, experiments with two-dimensional ion crystals held in radiofrequency traps started only recently.
I will present experiments demonstrating control over planar ion crystals with more than 100 ions [1]. After cooling all transverse motional modes of the crystal close to the ground state, long-range transverse field Ising models can be realized by Raman interactions that off-resonantly couple the Zeeman ground states of singly-charged calcium ions to crystal’s motional modes. We demonstrate the creation of spin-squeezed states of up to 91 ions using an approach previously realized with long ion chains [2], characterize the spin-spin interactions and demonstrate single-qubit control over all ions in the crystal as well as entangling two-qubit gates.
An important question is to what degree the Hamiltonian one believes to generate is indeed realized in the experiment. To answer this question, we have carried out Hamiltonian and Liouvillian learning of our system, a procedure that opens a path to bounded-error quantum simulation.
[1] D. Kiesenhofer, H. Hainzer et al, PRX Quantum 4, 020317 (2023)
[2] J. Franke et al., Nature 621, 740 (2023)
Access data for the transfer:
Zoom Access: https://us04web.zoom.us/j/932734874