We propose metasurface holograms as a novel platform to generate optical trap arrays for
cold atoms with high quality, efficiency, and thermal stability. We developed design and …

A central goal in creating long-distance quantum networks and distributed quantum
computing is the development of interconnected and individually controlled qubit nodes …

We present a robust protocol for implementing high-fidelity multiqubit controlled phase gates
(C k Z) on neutral atom qubits coupled to highly excited Rydberg states. Our approach is …

We propose a reliable scheme for one-step synthesizing of a quantum fan-out gate in a
system of neutral atoms. By introducing the off-resonant driving fields with Gaussian …

We present a comparative analysis of physical constraints limiting the quality of spin
entanglement created using the Rydberg blockade technique in an ensemble of trapped …

Individually trapped neutral atoms are a promising candidate for use in quantum computing
and simulation applications. They are highly scalable, have long coherence times and can …

The work described in this thesis was carried out in the group “Quantum Gases & Quantum
Information”, at the Van der Waals-Zeeman Instituut of the University of Amsterdam, Science …

Application of few-body Förster resonances for implementation of multiqubit quantum gate
circuits has been investigated. New types of three-atom Borromean transitions based on the …