Chiral separation of molecules enabled by enantioselective optical forces in integrated nanophotonic circuits

Rezultaty

Synthesis and optimization of chiral nanoparticles

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Optimized building blocks: waveguides, interfaces, compensators

Key building blocks of C-PICs (waveguides, interfaces, compensators) will be designed and optimized using numerical simulations. Here we will report on such designs to be later fabricated to form c-PICs.

Report on preliminary results and algorithm of numerical DFT method to determine chirality spectra of molecules, and its link with optical force calculations

Here we will describe the first results as well as the numerical DFT method employed to determine the chirality spectra of molecules. We will also establish a link so that such molecules can be used in the optical force calculations to be performed in WP2.

Scientific and Technical review documents RP1

The draft agenda and presentations to be delivered during the 1st review meeting

Data management plan 1

Definition of the Data Management Plan

Dissemination and Exploitation Plan 1

Definition of the Dissemination and Exploitation Plan

Risks, bottlenecks and opportunities of enantioselective optical forces

First simulation results on optical forces exerted by chiral modes in integrated waveguides will allow us to establish the risks, bottlenecks, and opportunities of enantioselective optical forces. These results will set the limits of the application of the CHIRALFORCE technology.

Project website

Development and operation of the project’s website

Publikacje

Optical dipolar chiral sorting forces and their manifestation in evanescent waves and nanofibers

Autorzy: Sebastian Golat, Jack J. Kingsley-Smith, Iago Diez, Josep Martinez-Romeu, Alejandro Martínez, and Francisco J. Rodríguez-Fortuño
Opublikowane w: Physical Review Research, Numer Vol. 6, Iss. 2 — April - June 2024, 2024, ISSN 2643-1564
Wydawca: American Physical Society
DOI: 10.48550/arxiv.2310.11272

Chiral forces in longitudinally invariant dielectric photonic waveguides

Autorzy: Alejandro Martinez; Francisco Rodríguez-Fortuño; Sebastian Golat; Iago Diez; Josep Martinez-Romeu
Opublikowane w: Photonics Research, Numer Vol.12, Numer, pp.431-443, 2024, ISSN 2327-9125
Wydawca: Optica Publishing Group
DOI: 10.48550/arXiv.2310.16413

Rezultaty

Publikacje

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