The Trapped Ion Quantum Technology group at Stockholm University invites applications for a postdoctoral position on our trapped Rydberg ion experiments. The postdoc will work on a room-temperature experimental setup to investigate Rydberg physics and perform quantum gates in longer ion strings.
Trapped Rydberg ions are a new system for quantum computation. By laser pulses the ions’ outermost electron is excited to a high-lying Rydberg orbital [1]. Such Rydberg ions are million times bigger than ions in the ground state, and due to their size obtain very peculiar properties. Trapped ions can be entangled via a strong Rydberg interaction in less than a microsecond [2]. This method supports fast entangling gates in large ions crystals, thus enabling a fast trapped ion quantum computer or quantum simulator.
For more information please visit our group website and/or contact Assoc. Prof. Markus Hennrich, markus.hennrich@fysik.su.se.
Literature:
[1] Higgins, et al., Coherent control of a single trapped Rydberg ion, Physical Review Letters 119 (22), 220501 (2017).
[2] Zhang, et al., Submicrosecond entangling gate between trapped ions via Rydberg interaction, Nature 580, 345 (2020).
Postdoc position on Quantum Computing with trapped Rydberg ion
The Trapped Ion Quantum Technology group at Stockholm University invites applications for a postdoctoral position on our trapped Rydberg ion experiments. The postdoc will work on a room-temperature experimental setup to investigate Rydberg physics and perform quantum gates in longer ion strings.
Trapped Rydberg ions are a new system for quantum computation. By laser pulses the ions’ outermost electron is excited to a high-lying Rydberg orbital [1]. Such Rydberg ions are million times bigger than ions in the ground state, and due to their size obtain very peculiar properties. Trapped ions can be entangled via a strong Rydberg interaction in less than a microsecond [2]. This method supports fast entangling gates in large ions crystals, thus enabling a fast trapped ion quantum computer or quantum simulator.
For more information please visit our group website and/or contact Assoc. Prof. Markus Hennrich, markus.hennrich@fysik.su.se.
Literature:
[1] Higgins, et al., Coherent control of a single trapped Rydberg ion, Physical Review Letters 119 (22), 220501 (2017).
[2] Zhang, et al., Submicrosecond entangling gate between trapped ions via Rydberg interaction, Nature 580, 345 (2020).
