Projects per year
Description
This dataset, related to the publication 'Extracting coupling-mode spectral densities with two-dimensional electronic spectroscopy.' It contains the following:
Python code for calculating the response R described in the paper, and for plotting the output data (.py format); a Mathematica notebook for all the analytical results described in the paper (.nb format); the output files of the Python and Mathematica codes (in binary and text file format respectively); the process tensors constructed as part of the Python code, which can be re-used for the calculation of the response functions (HDF document).
The code and output data can be used and read on any standard laptop/computer with Python and Mathematica installed.
More details on how to use the code in the dataset is present in the read_me.txt file.
Python code for calculating the response R described in the paper, and for plotting the output data (.py format); a Mathematica notebook for all the analytical results described in the paper (.nb format); the output files of the Python and Mathematica codes (in binary and text file format respectively); the process tensors constructed as part of the Python code, which can be re-used for the calculation of the response functions (HDF document).
The code and output data can be used and read on any standard laptop/computer with Python and Mathematica installed.
More details on how to use the code in the dataset is present in the read_me.txt file.
| Date made available | 24 Jun 2025 |
|---|---|
| Publisher | University of St Andrews |
| Date of data production | 2024 - 2025 |
Projects
- 1 Finished
-
Understanding and engineering: Understanding and engineering dissipation in nanoscale quantum devices
Lovett, B. W. (PI) & Keeling, J. M. J. (CoI)
1/04/20 → 31/03/23
Project: Standard
Research output
- 1 Letter
-
Extracting coupling-mode spectral densities with two-dimensional electronic spectroscopy
de Wit, R., Keeling, J., Lovett, B. W. & Chin, A. W., 19 Jun 2025, (E-pub ahead of print) In: The Journal of Physical Chemistry Letters. Ahead of Print, 8 p.Research output: Contribution to journal › Letter › peer-review
Open AccessFile