Nicolas Volet
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Explore the profile of Nicolas Volet including associated specialties, affiliations and a list of published articles.
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17
Citations
120
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Recent Articles
1.
Ulsig E, Madsen M, Stanton E, Reddy D, Leger A, Sorensen S, et al.
Opt Express
. 2024 Nov;
32(21):36986-37000.
PMID: 39573574
Integrated coherent mid-infrared (mid-IR) sources are crucial for spectroscopy and quantum frequency conversion (QFC) to facilitate scalable fiber-based application of single photons. Direct mid-IR emission with broad tunability poses fundamental...
2.
Sorensen S, Ulsig E, Philip F, Sorensen F, Madsen M, Gardner A, et al.
Opt Lett
. 2024 Aug;
49(15):4098-4101.
PMID: 39090867
An alternative method for characterizing optical propagation in waveguide structures based on scattered light imaging is presented and demonstrated for the spectral range of 450-980 nm. Propagation losses as low...
3.
Stanton E, Tonning P, Ulsig E, Calmar S, Stanton M, Thomsen S, et al.
Sci Rep
. 2024 Feb;
14(1):3238.
PMID: 38331948
Far-UVC light in the wavelength range of 200-230 nm has attracted renewed interest because of its safety for human exposure and effectiveness in inactivating pathogens. Here we present a compact...
4.
Thorndahl Thomsen S, Far Brusatori M, Hedegaard Arent N, Kumar R, Volet N
Opt Lett
. 2023 Dec;
48(24):6372-6375.
PMID: 38099751
We demonstrate a refined way to extract the frequency noise (FN) spectrum of lasers by tailoring the delay in a conventional delayed self-heterodyne setup to sub-coherence lengths. The method achieves...
5.
Kumar R, Nielsen L, Volet N, Heck M
Opt Lett
. 2023 May;
48(7):1614-1617.
PMID: 37221723
We report an intra-cavity coherent combining of two distributed Bragg reflector (DBR) lasers with a combining efficiency of ∼84% on an InP generic foundry platform. The on-chip power of the...
6.
Shadmani A, Thomas R, Liu Z, Papon C, Heck M, Volet N, et al.
Opt Express
. 2022 Oct;
30(21):37595-37602.
PMID: 36258345
We report a method for integrating GaAs waveguide circuits containing self-assembled quantum dots on a Si/SiO wafer, using die-to-wafer bonding. The large refractive-index contrast between GaAs and SiO enables fabricating...
7.
Far Brusatori M, Duplat D, Degli-Eredi I, Nielsen L, Tonning P, Castera P, et al.
Opt Lett
. 2022 Jun;
47(11):2686-2689.
PMID: 35648905
Two photonic integrated circuits (PICs) are coupled to form a hybridly integrated semiconductor ring laser in the telecom C band with an intrinsic linewidth of (158±21) Hz. This is, to...
8.
Kumar R, Hansel A, Far Brusatori M, Nielsen L, Augustin L, Volet N, et al.
Opt Lett
. 2022 Apr;
47(9):2346-2349.
PMID: 35486796
We report a monolithically integrated coupled extended-cavity distributed Bragg reflector laser with, to our knowledge, the lowest reported intrinsic linewidth of ∼10 kHz, which is extracted from a corresponding frequency-noise...
9.
Stanton E, Chiles J, Nader N, Moody G, Volet N, Chang L, et al.
Opt Express
. 2020 Apr;
28(7):9521-9532.
PMID: 32225558
Nonlinear frequency conversion plays a crucial role in advancing the functionality of next-generation optical systems. Portable metrology references and quantum networks will demand highly efficient second-order nonlinear devices, and the...
10.
Raja A, Liu J, Volet N, Wang R, He J, Lucas E, et al.
Opt Express
. 2020 Mar;
28(3):2714-2721.
PMID: 32121953
Photonic chip-based soliton microcombs have shown rapid progress and have already been used in many system-level applications. There has been substantial progress in realizing soliton microcombs that rely on compact...