[Postgrad] Special Colloquium by David Lucas, Wed 30th Aug, 11am

Stefan Kuhr stefan.kuhr at strath.ac.uk
Mon Aug 28 15:59:26 BST 2023 

Dear all,

It's my pleasure to invite you to a special Optics Division Colloquium entitled "Quantum networking and computing with trapped ions" (see abstract below), by Professor David Lucas, Clarendon Laboratory, Oxford.

Time &  Location: Wed 30th August, 11am, JA314

Looking forward to seeing many of you on Wednesday!

Best wishes,

Stefan

===========================
Professor Stefan Kuhr
Head of Department
University of Strathclyde
Department of Physics
Glasgow
G4 0NG
United Kingdom
Stefan.kuhr at strath.ac.uk<mailto:Stefan.kuhr at strath.ac.uk>




ABSTRACT:

I will describe recent work at Oxford on quantum networking applications using trapped-ion qubits. Our apparatus consists of two independent ion traps, separated by 2 metres, linked via a single-photon optical fibre interface. We can generate high-fidelity (>90%) entanglement between trapped-ion qubits, one stored in each trap, at high speed (up to 200 entanglement events per second). Using this setup we have made demonstrations of several quantum technological applications in the areas of cryptography, metrology and information processing [1,2,3].

Firstly, we achieved a full implementation of a "device-independent" QKD protocol [1]; that is, the generation of a shared secret key between Alice and Bob, reliant only on their possession of a pair of entangled particles - entanglement which no eavesdropper can share [4]. Secondly, we demonstrated entanglement-enhanced frequency comparison of two optical atomic clocks [2], with precision approaching the Heisenberg limit (the ultimate measurement precision allowed by quantum mechanics). Recently, we have added robust quantum memory to our network [5], which has enabled a demonstration of verifiable blind quantum computing [3]; that is, the ability of a "client" to run and verify a simple protocol on the "server's" quantum processor, without the server being able to see the client's data or algorithm.

[1] D.P.Nadlinger et al., Nature 2022.
[2] B.C.Nichol, R.Srinivas et al., Nature 2022.
[3] P.Drmota et al., arXiv 2023.
[4] A.Ekert, Phys.Rev.Lett. 1991.
[5] P.Drmota et al., Phys.Rev.Lett. 2023.

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