Dr Axel Kuhn

Multi-resonant open-access microcavity arrays for light matter interaction

Optics Express Optica Publishing Group 31:4 (2023) 6342-6355

Authors:

Thomas H Doherty, Axel Kuhn, Ezra Kassa

Abstract:

We report the realisation of a high-finesse open-access cavity array, tailored towards the creation of multiple coherent light-matter interfaces within a compact environment. We describe the key technical developments put in place to fabricate such a system, comprising the creation of tapered pyramidal substrates and an in-house laser machining setup. Cavities made from these mirrors are characterised, by laser spectroscopy, to possess similar optical properties to state-of-the-art fibre-tip cavities, but offer a compelling route towards improved performance, even when used to support only a single mode. The implementation of a 2×2 cavity array and the independent frequency tuning between three neighbouring sites are demonstrated.

[Data] Multi-resonant open-access microcavity arrays for light matter interaction

University of Oxford (2023)

Authors:

Thomas Hamish Doherty, Axel Kuhn, Ezra Kassa

Abstract:

Data presented and analysed in arXiv:2207.03676 [physics.optics] [https://arxiv.org/abs/2207.03676].

How to administer an antidote to Schrödinger's cat

Journal of Physics B: Atomic, Molecular and Optical Physics 55:5 (2022)

Authors:

JR Álvarez, M Ijspeert, O Barter, B Yuen, TD Barrett, D Stuart, J Dilley, A Holleczek, A Kuhn

Abstract:

In his 1935 Gedankenexperiment, Erwin Schrödinger imagined a box with a cat and a poisonous substance which has a 50% probability of being released, based on the decay of a radioactive atom. As such, the life of the cat and the state of the poison become entangled, and the fate of the cat is determined upon opening the box. We present an experimental technique that keeps the cat alive on any account. This method relies on the time-resolved Hong-Ou-Mandel effect: two long, identical photons impinging on a beam splitter always bunch in either of the outputs. Interpreting the first photon detection as the state of the poison, the second photon is identified as the state of the cat. Even after the collapse of the first photon's state, we show their fates are intertwined through quantum interference. We demonstrate this by a sudden phase change between the inputs, administered conditionally on the outcome of the first detection, which steers the second photon to a pre-defined output and ensures that the cat is always observed alive.

Administering an antidote to Schrödinger’s cat

Optica Publishing Group (2022) qth3c.1

Authors:

Juan-Rafael Álvarez, Mark IJspeert, Oliver Barter, Ben Yuen, Thomas D Barrett, Dustin Stuart, Jerome Dilley, Annemarie Holleczek, Axel Kuhn

Polarized single photons from a cavity-enhanced atom-light interface with coherent re-preparation

Optica Publishing Group (2022) qth4c.4

Authors:

Jan Ole Ernst, Juan-Rafael Álvarez, Thomas D Barrett, Axel Kuhn