Liquid crystals as new tunable sources of entangled photon pairs

Kavčič A, Sultanov V, Kokkinakis E, Sebastián N, Chekhova M, Humar M (2024)

Publication Language: English

Publication Type: Conference contribution

Publication year: 2024

Publisher: SPIE

Series: Proceedings of SPIE

Book Volume: 13106

Pages Range: 1310603

Conference Proceedings Title: Photonics for Quantum 2024

Event location: Waterloo, ON

ISBN: 9781510677906

DOI: 10.1117/12.3023811

Abstract

Entangled photon pair sources relying on spontaneous parametric down-conversion (SPDC) are an essential ingredient for optical quantum technologies.¹ Currently, the vast majority of SPDC sources is based on solid-state crystals. However, their rigid nature implies a careful design of the source as well as it limits the two-photon state that can be generated, without much possibility of tuning it. Here, we demonstrate a new generation of efficient, highly tunable sources of entangled photons based on recently discovered liquid crystal materials called ferroelectric nematic liquid crystals (FNLC).^2,3 In addition to other highly desirable properties that liquid crystals possess, such as the ability to self-assemble into complex structures, strong response to the electric field and integrability into complex optical systems,⁴ FNLCs also possess considerable optical nonlinearity.^5,6 This, as we demonstrate, enables also efficient SPDC generation and opens the door for promising new functionalities in quantum technologies. This work demonstrates the first-ever realization of SPDC in soft, organic matter, with the possibility of controlling the molecular order and thus tuning the two-photon polarization state. We show that almost any polarization state can be generated by simply adjusting the twist of the molecular orientation along the sample. Additionally, by applying only a few volts, we can drastically alter both the emission rate and the generated state of photon pairs, which enables real-time tunability. Developed concepts could lead to complex multi-pixel devices generating quantum light with real time tunability and therefore hold the potential to have a huge impact in the field of quantum technologies.

Authors with CRIS profile

Vitaliy Sultanov Sonderforschungsbereich/Transregio 306/1: Quantenkooperativität von Licht und Materie - QuCoLiMa Maria Chekhova Professur für Optik

Involved external institutions

Jožef Stefan Institute

Slovenia (SI) University of Crete / Πανεπιστήμιο Κρήτης

Greece (GR)

How to cite

APA:

Kavčič, A., Sultanov, V., Kokkinakis, E., Sebastián, N., Chekhova, M., & Humar, M. (2024). Liquid crystals as new tunable sources of entangled photon pairs. In Michael Reimer, Nir Rotenberg, Donald F. Figer (Eds.), Photonics for Quantum 2024 (pp. 1310603). Waterloo, ON, CA: SPIE.

MLA:

Kavčič, Aljaž, et al. "Liquid crystals as new tunable sources of entangled photon pairs." Proceedings of the Photonics for Quantum 2024, Waterloo, ON Ed. Michael Reimer, Nir Rotenberg, Donald F. Figer, SPIE, 2024. 1310603.

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