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DOI: 10.4121/61a4043e-63e1-4d6e-b043-f1f69f2a124a

Locarno, Marco; Brinks, Daan (2025): Data underlying the PhD thesis: “Finding light in the darkness”, specifically Chapter 5. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/61a4043e-63e1-4d6e-b043-f1f69f2a124a.v1

Categories

• Biochemistry and Cell Biology
• Optical Physics
• Atomic, Molecular, Nuclear, Particle and Plasma Physics
• Physical Sciences
• Biological Sciences

Keywords

2-photon excitation Genetically encoded voltage indicators Non-linear excitation Optical delay line Second harmonic generation

Time coverage

February 2024 to May 2024

Licence

CC BY-NC-SA 4.0

Collection

• Data underlying the PhD thesis: “Finding light in the darkness”

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by Marco Locarno, Daan Brinks

The data contained in this collection supports the dissertation of Marco Locarno "Finding light in the darkness", specifically Chapter 5.

List of files and description:

- ODL characterization: Contains calibration data for the optical delay line used in the pump–probe setup. This file includes measurements of the pulse width, delay accuracy, and stability assessments (calibration curves and repeatability tests) that verify the temporal precision required for femtosecond-scale experiments.

- ODL photobleaching: Includes experiments assessing photobleaching effects under repeated ODL excitation. Data here track the fluorescence decay over time under continuous ultrafast illumination, providing insights into the photostability of the QuasAr6a protein during prolonged exposure.

- ODL autocorrelation: Contains autocorrelation measurements of the ultrafast laser pulses delivered by the ODL. It comprises interferometric autocorrelation traces and derived pulse duration metrics, ensuring that the pulses meet the temporal resolution needed to probe the ultrafast dynamics.

- ODL ultrafast experiments: Encompasses the primary pump–probe datasets obtained with the optical delay line. It includes time-resolved fluorescence signals and analyses of non-linear responses in QuasAr6a, capturing the dynamics of the protein’s photocycle as a function of varying pulse delays.

History

• 2025-03-10 first online, published, posted

Publisher

4TU.ResearchData

Format

Compressed folders (.zip), containing relevant images (.tif) and metadata (.txt)

Funding

• MULTIVIsion (grant code 850818) European Research Council

Organizations

TU Delft, Faculty of Applied Sciences, Department of Imaging Physics