Published August 18, 2025
| Version v1
Dataset
Open
Data for "Full Microscopic Simulations Uncover Persistent Quantum Effects in Primary Photosynthesis"
- 1. Institute of Theoretical Physics, Ulm University
Contributors
Researchers:
Supervisors:
- 1. Institute of Theoretical Physics, Ulm University
-
2.
University of Milan
Description
This data set accompagnies the manucript Lorenzoni N., Lacroix T., Lim J., Tamascelli D., Huelga S. F. & Plenio M. B., Full Microscopic Simulations Uncover Persistent Quantum Effects in Primary Photosynthesis, arXiv:2503.17282, https://doi.org/10.48550/arXiv.2503.17282 (2025).
This dataset can be cited as Lorenzoni, N., & Lacroix, T. (2025). Data for "Full Microscopic Simulations Uncover Persistent Quantum Effects in Primary Photosynthesis" [Data set]. Zenodo. https://doi.org/10.5281/zenodo.16894519.
It contains DAMPF data:
- Fenna-Matthews-Olson excitation energy transfer (FMO EET) electronic density matrix dynamics data at T = 77 K and T = 300K (Figures 3, 4, S2, S3)
- 2D spectra simulations of a dimeric unit at T = 77K (Figures 5, S5, S6)
and T-TEDOPA data:
- dimer simulation results at T = 77 K and T = 300 K (Figure S1)
- code to run the dimer simulation at T = 77 K and T = 300 K
- chain coefficients for the FMO spectral density at T = 77 K and T = 300 K
Files
DAMPF_2DES.zip
Additional details
Related works
- Is supplement to
- Preprint: arXiv:2503.17282 (arXiv)
Funding
- European Commission
- HyperQ - Quantum hyperpolarisation for ultrasensitive nuclear magnetic resonance and imaging 856432
- Federal Ministry of Education and Research
- PhoQuant 13N16110
- Ministerium für Wissenschaft, Forschung und Kunst Baden-Württemberg
- bwHPC
- Deutsche Forschungsgemeinschaft
- Justus 2 cluster INST 40/575-1 FUGG
- European Commission
- QBETTER PE 0000023-QBETTER