data supporting the article "Single-particle approach to many-body relaxation dynamics" published in Physical Review A
- Słowik, Karolina 1
- Pelc, Marta 1
- Dams, David 2
- Ghosh, Abhishek 1
- Kosik, Miriam 1
- Marvin M. M ̈uller 2
- Bryant, Garnett 3
- Rockstuhl, Carsten 2
- Andr ́es Ayuela 4
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1
Nicolaus Copernicus University
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- 2 Karlsruhe Institute of Technology, Karlsruhe, Germany
- 3 Joint Quantum Institute, University of Maryland and National Institute of Standards and Technology, College Park 20742, MD, USA; Nanoscale Device Characterization Division, National Institute of Standards and Technology, Gaithersburg 20899, MD, USA
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4
Centro de Física de Materiales
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Editor: RepOD
Ano de publicación: 2024
Tipo: Dataset
Resumo
General information title of the dataset: "data for the article <> (doi to be added when available)" Name/institution/address/email information for Principal investigator (or person responsible for collecting the data): Karolina Słowik, ORCID https://orcid.org/0000-0003-1314-7004 Institute of Physics, Nicolaus Copernicus University ROR ID https://ror.org/0102mm775 Grudziadzka 5/7 87-100 Toruń, Poland karolina@fizyka.umk.pl Associate or co-investigators Marta Pelc, ORCID https://orcid.org/0000-0002-0671-4990 Institute of Physics, Nicolaus Copernicus University ROR ID https://ror.org/0102mm775 Grudziadzka 5/7 87-100 Toruń, Poland mpelc@umk.pl David Dams ORCID https://orcid.org/0009-0001-8944-2643 Institute of Theoretical Solid State Physics, Karlsruhe Institute of Technology (KIT), ROR ID https://ror.org/04t3en479 Karlsruhe 76131, Germany david.dams@kit.edu Abhishek Ghosh, ORCID https://orcid.org/0000-0001-8350-1158 Institute of Physics, Nicolaus Copernicus University ROR ID https://ror.org/0102mm775 Grudziadzka 5/7 87-100 Toruń, Poland ov@doktorant.umk.pl Miriam Kosik, ORCID https://orcid.org/0000-0002-3660-2199 Institute of Physics, Nicolaus Copernicus University ROR ID https://ror.org/0102mm775 Grudziadzka 5/7 87-100 Toruń, Poland Marvin M. Mueller ORCID https://orcid.org/0000-0001-5433-8734 Institute of Theoretical Solid State Physics, Karlsruhe Institute of Technology (KIT), https://ror.org/04t3en479 Karlsruhe 76131, Germany Garnett Bryant ORCID https://orcid.org/0000-0002-2232-0545 Joint Quantum Institute, University of Maryland ROR ID https://ror.org/04xz38214 and National Institute of Standards and Technology, ROR ID https://ror.org/05xpvk416 College Park 20742, MD, USA; Nanoscale Device Characterization Division, National Institute of Standards and Technology, ROR ID https://ror.org/05xpvk416 Gaithersburg 20899, MD, USA garnett.bryant@nist.gov Carsten Rockstuhl ORCID https://orcid.org/0000-0002-5868-0526 Institute of Theoretical Solid State Physics, Karlsruhe Institute of Technology (KIT), https://ror.org/04t3en479 Karlsruhe 76131, Germany; Institute of Nanotechnology, Karlsruhe Institute of Technology (KIT), https://ror.org/04t3en479 Karlsruhe 76021, Germany carsten.rockstuhl@kit.edu Andrés Ayuela ORCID https://orcid.org/0000-0001-9611-9556 Centro de Física de Materiales, CFM-MPC CSIC-UPV/EHU, ROR ID https://ror.org/02hpa6m94 Paseo Manuel Lardizabal 5, Donostia-San Sebastián 20018, Spain; Donostia International Physics Center (DIPC), ROR ID https://ror.org/02e24yw40 Paseo Manuel Lardizabal 4, Donostia-San Sebastián 20018, Spain a.ayuela@csic.es Contact person for questions: Karolina Słowik Date of data collection: Jun 2023 - Jan 2024 Information about geographic location of data collection: Toruń, Poland Keywords used to describe the data topic: relaxation, single-particle, many-body, adatoms; graphene; nanoantennas; nanoflakes; two-level system Language information: English Information about funding sources that supported the collection of the data: Funding source: National Science Centre, Poland Award Idenifier: Project No. 2020/39/I/ST3/00526 Funding source: German Research Foundation Award Identifier / Grant number: RO 3640/14-1 under project number 465163297 Award Identifier / Grant number: RO 3640/8-1 under project number 378579271 Funding source: Spanish Ministry of Science and Innovation Award Identifier / Grant number: PID2019-105488GB-I00 Award Identifier / Grant number: TED2021-132074B-C32 Funding source: European Commission Award Identifier / Grant number: MIRACLE (ID 964450) Award Identifier / Grant number: NaturSea-PV (ID 101084348) Award Identifier / Grant number: NRG-STORAGE project (GA 870114) Funding source: Basque Government Award Identifier / Grant number: IT-1569-22 Data overview: # This data collection contains data supporting the article doi.org/10.1103/PhysRevA.109.022237 Sharing and access information License: CC0 Creative Commons Zero 4.0 Link to publications that uses the data: https://journals.aps.org/pra/abstract/10.1103/PhysRevA.109.022237 Recommended citation for the data: Pelc, Marta, et al. "Single-particle approach to many-body relaxation dynamics." Physical Review A 109.2 (2024): 022237. Methodological information Self-developed python code implementing relaxation dynamics of electrons in quantum systems according to the single-particle and many-body approaches. The description is based on the tight-binding framework and different relaxation models, including the introduced saturated Lindblad model. For a detailed description of methods for data collection or generation and processing: see the article ... Data-specific information File Fig1_triangle_size1_dissipation_global contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the phenomenological relaxation model presented in Fig.1b. File Fig1_triangle_size2_dissipation_WW contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.1b. File Fig1_triangle_size2_dissipation_Lindblad contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the unsaturated Lindblad relaxation model presented in Fig.1c. File Fig2_gamma_arrays contains data on the values of normalized transition rates gamma presented in Fig.2b-d. File Fig2_equal_transition_rates_dissipation_sL contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.2e. File Fig2_equal_transition_rates_dissipation_global contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the phenomenological relaxation model presented in Fig.2f. File Fig2_linear_chain_dissipation_sL contains data on the time_axis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.2g. File Fig2_linear_chain_dissipation_mb contains data on the time_axis and occupation in the energy basis for the many-body calculations with the Lindblad relaxation model presented in Fig.2h. File Fig2_dimer_chain_dissipation_sL contains data on the time_axis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.2i. File Fig2_dimer_chain_dissipation_mb contains data on the time_axis and occupation in the energy basis for the many-body calculations with the Lindblad relaxation model presented in Fig.2j. File Fig3_triangle_size1_gamma_array contains the values of normalized transition rates gamma presented in Fig.3b. File Fig3_triangle_size2_gamma_array contains the values of normalized transition rates gamma presented in Fig.3c. File Fig3_triangle_size3_gamma_array contains the values of normalized transition rates gamma presented in Fig.3d. File Fig3_triangle_size1_dissipation_global contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the phenomenological relaxation model presented in Fig.3e. File Fig3_triangle_size2_dissipation_WW contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.3e. File Fig3_triangle_size2_dissipation_global contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the phenomenological relaxation model presented in Fig.3f. File Fig3_triangle_size2_dissipation_WW contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.3f. File Fig3_triangle_size3_dissipation_global contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the phenomenological relaxation model presented in Fig.3g. File Fig3_triangle_size3_dissipation_WW contains data on the time_axis, occupation in the site basis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.3g. File Fig3_triangle_size1_spectrum_global contains data on the frequencies and spectra for the phenomenological relaxation model presented in Fig.3h. File Fig3_triangle_size1_spectrum_WW contains data on the frequencies spectra for the saturated Lindblad relaxation model presented in Fig.3h. The 2nd column refers to the total spectrum, while the following entries are contributing resonances. File Fig3_triangle_size2_spectrum_global contains data on the frequencies and spectra for the phenomenological relaxation model presented in Fig.3i. File Fig3_triangle_size2_spectrum_WW contains data on the frequencies spectra for the saturated Lindblad relaxation model presented in Fig.3i. The 2nd column refers to the total spectrum, while the following entries are contributing resonances. File Fig3_triangle_size3_spectrum_global contains data on the frequencies and spectra for the phenomenological relaxation model presented in Fig.3j. File Fig3_triangle_size3_spectrum_WW contains data on the frequencies spectra for the saturated Lindblad relaxation model presented in Fig.3j. The 2nd column refers to the total spectrum, while the following entries are contributing resonances. File Fig4_triangle_size2_dissipation_global contains the time_axis, occupation in the site basis and occupation in the energy basis for the phenomenological relaxation model presented in Fig.4b. File Fig4_triangle_size2_dissipation_WW contains the time_axis, occupation in the site basis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.4b and c. File Fig4_triangle_size2_spectrum_global contains the frequencies and spectra for the phenomenological relaxation model presented in Fig.4d. File Fig4_triangle_size2_spectrum_WW contains the frequencies spectra for the saturated Lindblad relaxation model presented in Fig.4d. The 2nd column refers to the total spectrum, while the following columns are contributing resonances. File Fig5_triangle_size1_energies contains the list of eigenstate energies presented in Fig.5a. File Fig5_triangle_size2_energies contains the list of eigenstate energies presented in Fig.5b. File Fig5_triangle_size3_energies contains the list of eigenstate energies presented in Fig.5c. File Fig5_gamma_arrays contains the values of normalized transition rates gamma presented in the insets of Fig.5a-c. File Fig5_triangle_size1_dissipation_sL contains the time_axis, occupation in the site basis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.5d. File Fig5_triangle_size1_dissipation_global contains the time_axis, occupation in the site basis and occupation in the energy basis for the phenomenological relaxation model presented in Fig.5d. File Fig5_triangle_size2_dissipation_sL contains the time_axis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.5e. File Fig5_triangle_size2_dissipation_global contains the time_axis and occupation in the energy basis for the many-body calculations with the Lindblad relaxation model presented in Fig.5e. File Fig5_triangle_size3_dissipation_sL contains the time_axis and occupation in the energy basis for the saturated Lindblad relaxation model presented in Fig.5f. File Fig5_triangle_size3_dissipation_global contains the time_axis and occupation in the energy basis for the many-body calculations with the Lindblad relaxation model presented in Fig.5f. File FigA1_scaling_functionals contains the list of arguments for which the functionals are evaluated, the list of multipliers m, values of the scaling functionals for the selected multipliers. File FigA2_linear_chain contains the time axis and state occupations in the energy basis for subsequent values of the multipliers for the linear chain. File FigA2_dimer_chain contains the time axis and state occupations in the energy basis for subsequent values of the multipliers for the dimer chain.