Chemical Reactions (Including Electron and exciton transfer processes)
Tunneling Process in dissipative environments, Fokker-Planck equation Approach
 | Y. Tanimura and P. G. Wolynes, Quantum and classical Fokker-Planck equations for a Gaussian-Markovian noise bath, Phys. Rev. A43, 4131-4142 (1991). |
| Y. Tanimura and P. G. Wolynes, The interplay of tunneling, resonance, and dissipation in quantum barrier crossing: A numerical study, J. Chem. Phys. 96, 8485-8496 (1992). |
| A.Ishizaki and Y. Tanimura, Multidimensional vibrational spectroscopy for tunneling processes in a dissipative environment, J. Chem. Phys. 123, 14503 (2005) |
Displaces Harmonic Oscillators Model, Fokker-Planck equation Approach
| Y. Tanimura and S. Mukamel, Multistate quantum Fokker-Planck approach to nonadiabatic wave packet dynamics in pump-probe spectroscopy, J. Chem. Phys. 101, 3049-3061 (1994). | ||||
| Y. Tanimura and Y. Maruyama, Gaussian-Markovian quantum Fokker-Planck approach to nonlinear spectroscopy of a displaced Morse potentials system: dissociation, predissociation and optical Stark effects, J. Chem. Phys. 107, 1779-1793 (1997). | ||||
| Y. Maruyama and Y. Tanimura, Pump-probe spectra and nuclear dynamics for a dissipative molecular system in a strong laser field: predissociation dynamics, Chem. Phys. Lett. 292, 28-34 (1998). | ||||
| T. Ikeda and Y. Tanimura, Probing photoisomerization processes by means of multi-dimensional electronic spectroscopy: The multi-state quantum hierarchical Fokker-Planck Equation approach, J. Chem. Phys. 146, 014102 [10 pages] (2017) (Error correction) | ||||
| T. Ikeda and Y Tanimura, Phase-space wavepacket
dynamics of internal conversion via conical intersection: Multi-state quantum
Fokker-Planck equation approach, Chem. Phys.
515, 203-213 (2018), (Supporting Information & movies
ZIP)
| T. Ikeda and Y. Tanimura, Low-Temperature Quantum
Fokker-Planck and Smoluchowski Equations and Their Extension to Multistate
Systems, J.
Chem. Theory Comput. 15 (2019). (Error correction)
| T.
Ikeda, Y. Tanimura, and A. Dijkstra, Modeling and analyzing a photo-driven molecular motor
system: Ratchet
dynamics and non-linear optical spectra,
J. Chem. Phys. 150, 114103
[17 pages]
(2019)
| |
Displaces Harmonic Oscillators Model (Electron Transfer system), Path integrals Approach
| Y. Tanimura and S. Mukamel, Real-time path-integral approach to quantum coherence and dephasing in nonadiabatic transitions and nonlinear optical response, Phys. Rev. E47, 118-136 (1993). |
| Y. Tanimura and K. Okumura, First-, third-, and fifth-order resonant spectroscopy of anharmonic displaced oscillators system in the condensed phase, J. Chem. Phys.106, 2078-2095 (1997). |
Displaces Harmonic Oscillators Model (Electron Transfer system), Hierarchy Equation approach
| Y. Tanimura and S. Mukamel, Optical Stark spectroscopy of Brownian oscillator in intense fields, J. Phys. Soc. Jpn. 63, 66-77 (1994). |
| M. Tanaka and Y. Tanimura, Quantum Dissipative Dynamics of Electron Transfer Reaction System: Nonperturbative Hierarchy Equation Approach, J. Phys. Soc. Jpn, 78, 073802 (2009). |
| M. Tanaka and Y. Tanimura, Quantum Dissipative Dynamics of Electron Transfer Reaction System: Nonperturbative Hierarchy Equation Approach, J. Phys. Soc. Jpn, 78, 073802 (2009). |
| M. Tanaka and Y. Tanimura, Multistate Electron Transfer Dynamics in the Condensed Phase: Exact Calculations from the Reduced Hierarchy Equations of Motion Approach, J. Chem. Phys. 132, 214502 (2010) |
| Y. Tanimura, Reduced hierarchy equations of motion approach with Drude plus Brownian spectral distribution: Probing electron transfer processes by means of two-dimensional correlation spectroscopy, J. Chem, Phys 137, 22A550 [9 pages] (2012). [Open Access] |
Exciton and electron transfers
| A. G. Dijkstra and Y. Tanimura, Role of the Environment Time Scale on Light-Harvesting Efficiency and Coherent Oscillations, New J. Phys. 14, 073027 [11pages] (2012).[Open Access] |
| A. G. Dijkstra and Y. Tanimura, Linear and third- and fifth-order nonlinear spectroscopy of a charge transfer system coupled to an underdamped vibration, J. Chem. Phys. 142, 212423 [7 pages] (2015). |
|
Readfield equation Approach
| O. Khün and Y. Tanimura, Two-dimensional vibrational spectroscopy of a double minimum system in a dissipative environment, J. Chem. Phys. 119, 2155- 2164 (2003). |
Energy Landscapes Approach
| Y. Suzuki and Y. Tanimura, Free energy landscapes of electron transfer system in dipolar environment below and above the rotational freezing temperature, J. Chem. Phys. J. Chem. Phys. 126, 054504 (2007). |