This archive contains data of the following article,
[1] Baihua Wu, Bingqi Li, Xin He, Xiangsong Cheng, Jiajun Ren, Jian Liu*, "Nonadiabatic Field: A Conceptually Novel Approach for Nonadiabatic Quantum Molecular Dynamics", Journal of Chemical Theory and Computation, 21, 8, 3775-3813 (2025)

The following figures contain data from other articles / packages:

Figure 1 and 2: The exact results are produced from the MCTDH package:
[2]  Worth, G. A.; Beck, M. H.; Jackle, A.; Meyer, H.-D. The MCTDH Package, Version 8.2, (2000). H.-D. Meyer, Version 8.3
 (2002), Version 8.4 (2007). O. Vendrell and H.-D. Meyer Version 8.5 (2013). Version 8.5 contains the ML-MCTDH algorithm. See http://mctdh.uni-hd.de. (accessed on November 1st, 2023) Used version: 8.5.14.

Figure 3: The exact result is taken from the following article,
[3] Worth, G. A.; Welch, G.; Paterson, M. J. A Wavepacket Dynamics Study of Cr(CO)5 after Formation by Photodissociation: Relaxation through an (E ⊕ A) ⊗ e Jahn−Teller Conical Intersection. Mol. Phys. 2006, 104, 1095-1105.

Figure 4: The exact result is taken from the following article,
[4] Green, J. A.; Jouybari, M. Y.; Aranda, D.; Improta, R.; Santoro, F. Nonadiabatic Absorption Spectra and Ultrafast Dynamics of DNA and RNA Photoexcited Nucleobases. Molecules 2021, 26, 1743.

Figure 14 and 15: The exact results are taken from the following articles,
[5] Hoffmann, N. M.; Schafer, C.; Rubio, A.; Kelly, A.; Appel, H. Capturing Vacuum Fluctuations and Photon Correlations in Cavity Quantum Electrodynamics with Multitrajectory Ehrenfest Dynamics. Phys. Rev. A 2019, 99, No. 063819.
[6] Hoffmann, N. M.; Schäfer, C.; Säkkinen, N.; Rubio, A.; Appel, H.; Kelly, A. Benchmarking Semiclassical and Perturbative Methods for Real-Time Simulations of Cavity-Bound Emission and Interference. J. Chem. Phys. 2019, 151, No. 244113.

We also acknowledge Martha Yaghoubi Jouybari and Fabrizio Santoro for providing the parameters of the LVCM for Thymine in ref [4].
