TY - JOUR
T1 - Efficient fibre-pigtailed source of indistinguishable single photons
AU - Margaria, Nico
AU - Pastier, Florian
AU - Bennour, Thinhinane
AU - Billard, Marie
AU - Ivanov, Edouard
AU - Hease, William
AU - Stepanov, Petr
AU - Adiyatullin, Albert F.
AU - Singla, Raksha
AU - Pont, Mathias
AU - Descampeaux, Maxime
AU - Bernard, Alice
AU - Pishchagin, Anton
AU - Morassi, Martina
AU - Lemaître, Aristide
AU - Volz, Thomas
AU - Giesz, Valérian
AU - Somaschi, Niccolo
AU - Maring, Nicolas
AU - Boissier, Sébastien
AU - Au, Thi Huong
AU - Senellart, Pascale
N1 - Publisher Copyright:
© The Author(s) 2025.
PY - 2025/12/1
Y1 - 2025/12/1
N2 - Semiconductor quantum dots in microcavities are an excellent platform for the efficient generation of indistinguishable single photons. However, their use in a wide range of quantum technologies requires their controlled fabrication and integration in compact closed-cycle cryocoolers, with a key challenge being the efficient and stable extraction of the single photons into a single-mode fibre. Here we report on a method for the fibre-pigtailing of deterministically fabricated single-photon sources. Our technique allows for nanometre-scale alignment accuracy between the source and a fibre, alignment that persists all the way from room temperature to 2.4 K. We demonstrate high performance of the device under near-resonant optical excitation with a photon indistinguishability of 97.5 % and a brightness at the output fibre of the system of 20.8 %. We show that the indistinguishability and single-photon rate are stable for over ten hours of continuous operation in a single cooldown. We further confirm that the device performance is not degraded by nine successive cooldown-warmup cycles.
AB - Semiconductor quantum dots in microcavities are an excellent platform for the efficient generation of indistinguishable single photons. However, their use in a wide range of quantum technologies requires their controlled fabrication and integration in compact closed-cycle cryocoolers, with a key challenge being the efficient and stable extraction of the single photons into a single-mode fibre. Here we report on a method for the fibre-pigtailing of deterministically fabricated single-photon sources. Our technique allows for nanometre-scale alignment accuracy between the source and a fibre, alignment that persists all the way from room temperature to 2.4 K. We demonstrate high performance of the device under near-resonant optical excitation with a photon indistinguishability of 97.5 % and a brightness at the output fibre of the system of 20.8 %. We show that the indistinguishability and single-photon rate are stable for over ten hours of continuous operation in a single cooldown. We further confirm that the device performance is not degraded by nine successive cooldown-warmup cycles.
UR - https://www.scopus.com/pages/publications/105013272995
U2 - 10.1038/s41467-025-62712-y
DO - 10.1038/s41467-025-62712-y
M3 - Article
C2 - 40813860
AN - SCOPUS:105013272995
SN - 2041-1723
VL - 16
JO - Nature Communications
JF - Nature Communications
IS - 1
M1 - 7553
ER -