User Tools

Site Tools


yoshitaka_tanimura

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Last revision Both sides next revision
yoshitaka_tanimura [2020/03/07 10:51]
weinbub
yoshitaka_tanimura [2020/03/07 10:54]
weinbub [Wigner-specific research]
Line 9: Line 9:
  
 (1) Basic formalism of open quantum dynamics (1) Basic formalism of open quantum dynamics
-  * [[Yoshitaka Tanimura]], [[https://​journals.jps.jp/​doi/​abs/​10.1143/​JPSJ.75.082001|Stochastic Liouville, Langevin, Fokker-Planck,​ and master equation approaches to quantum dissipative systems]], J. Phys. Soc. Jpn. **75**, 082001 (2006) 
   * [[Yoshitaka Tanimura]], [[https://​aip.scitation.org/​doi/​10.1063/​1.4916647|Real-Time and Imaginary-Time Quantum Hierarchal Fokker-Planck Equations]],​ J. Chem. Phys. **142**, 144110 (2015)   * [[Yoshitaka Tanimura]], [[https://​aip.scitation.org/​doi/​10.1063/​1.4916647|Real-Time and Imaginary-Time Quantum Hierarchal Fokker-Planck Equations]],​ J. Chem. Phys. **142**, 144110 (2015)
 +  * [[Yoshitaka Tanimura]], [[https://​journals.jps.jp/​doi/​abs/​10.1143/​JPSJ.75.082001|Stochastic Liouville, Langevin, Fokker-Planck,​ and master equation approaches to quantum dissipative systems]], J. Phys. Soc. Jpn. **75**, 082001 (2006)
 +
    
  
 (2) Resonant tunneling diode in a dissipative environment (2) Resonant tunneling diode in a dissipative environment
-  * A. Sakurai and [[Yoshitaka Tanimura]], [[https://​journals.jps.jp/​doi/​abs/​10.7566/​JPSJ.82.033707|An approach to quantum transport based on reduced hierarchy equations of motion: Application to resonant tunneling diode]], J. Phys. Soc. Jpn **82**, 033707 (2013) 
-  * A. Sakurai and [[Yoshitaka Tanimura]], [[http://​iopscience.iop.org/​article/​10.1088/​1367-2630/​16/​1/​015002/​meta|Self-excited current oscillations in a resonant tunneling diode described by a model based on the Caldeira-Leggett Hamiltonian]],​ New J. of Phys. **16**, 015002 (2014) 
   * R. Grossmann, A. Sakurai, and [[Yoshitaka Tanimura]], [[https://​journals.jps.jp/​doi/​10.7566/​JPSJ.85.034803|Electron pumping under non-Markovian dissipation:​ The role of the self-consistent field]], J. Phys. Soc. Jpn. **85**, 034803 (2016) ​   * R. Grossmann, A. Sakurai, and [[Yoshitaka Tanimura]], [[https://​journals.jps.jp/​doi/​10.7566/​JPSJ.85.034803|Electron pumping under non-Markovian dissipation:​ The role of the self-consistent field]], J. Phys. Soc. Jpn. **85**, 034803 (2016) ​
 +  * A. Sakurai and [[Yoshitaka Tanimura]], [[http://​iopscience.iop.org/​article/​10.1088/​1367-2630/​16/​1/​015002/​meta|Self-excited current oscillations in a resonant tunneling diode described by a model based on the Caldeira-Leggett Hamiltonian]],​ New J. of Phys. **16**, 015002 (2014)
 +  * A. Sakurai and [[Yoshitaka Tanimura]], [[https://​journals.jps.jp/​doi/​abs/​10.7566/​JPSJ.82.033707|An approach to quantum transport based on reduced hierarchy equations of motion: Application to resonant tunneling diode]], J. Phys. Soc. Jpn **82**, 033707 (2013)
 +
  
 3) Multi-electronic states system & 2D (4D in a phase space) system 3) Multi-electronic states system & 2D (4D in a phase space) system
-  * T. Ikeda and [[Yoshitaka Tanimura]], [[https://​doi.org/​10.1063/​1.4989537|Probing photoisomerization processes by means of multi-dimensional electronic spectroscopy:​ The multi-state quantum hierarchal Fokker-Planck Equation approach]], J. Chem. Phys. **146**, 014102 (2017) 
   * T. Ikeda and [[Yoshitaka Tanimura]], [[https://​doi.org/​10.1016/​j.chemphys.2018.07.013|Phase-Space Wavepacket Dynamics of Internal Conversion via Conical Intersection:​ Multi-State Quantum Fokker-Planck Equation Approach]], Chem. Phys. **515**, 203-213 (2018)   * T. Ikeda and [[Yoshitaka Tanimura]], [[https://​doi.org/​10.1016/​j.chemphys.2018.07.013|Phase-Space Wavepacket Dynamics of Internal Conversion via Conical Intersection:​ Multi-State Quantum Fokker-Planck Equation Approach]], Chem. Phys. **515**, 203-213 (2018)
 +  * T. Ikeda and [[Yoshitaka Tanimura]], [[https://​doi.org/​10.1063/​1.4989537|Probing photoisomerization processes by means of multi-dimensional electronic spectroscopy:​ The multi-state quantum hierarchal Fokker-Planck Equation approach]], J. Chem. Phys. **146**, 014102 (2017)
 +
    
  
 4) Open classical vs. quantum dynamics 4) Open classical vs. quantum dynamics
-  * A. Sakurai and [[Yoshitaka Tanimura]], [[https://​pubs.acs.org.ccindex.cn/​doi/​abs/​10.1021/​jp1095618|Does hbar play a role in multidimensional spectroscopy?​ Reduced hierarchy equations of motion approach to molecular vibrations]],​ J. Phys. Chem. A **115**, 4009-4022 (2011) 
   * A. Kato and [[Yoshitaka Tanimura]], [[https://​pubs.acs.org.ccindex.cn/​doi/​abs/​10.1021/​jp403056h|Quantum Suppression of Ratchet Rectification in a Brownian System Driven by a Biharmonic Force]], J. Phys. Chem. B **117**, 13132-13144 (2013)   * A. Kato and [[Yoshitaka Tanimura]], [[https://​pubs.acs.org.ccindex.cn/​doi/​abs/​10.1021/​jp403056h|Quantum Suppression of Ratchet Rectification in a Brownian System Driven by a Biharmonic Force]], J. Phys. Chem. B **117**, 13132-13144 (2013)
 +  * A. Sakurai and [[Yoshitaka Tanimura]], [[https://​pubs.acs.org.ccindex.cn/​doi/​abs/​10.1021/​jp1095618|Does hbar play a role in multidimensional spectroscopy?​ Reduced hierarchy equations of motion approach to molecular vibrations]],​ J. Phys. Chem. A **115**, 4009-4022 (2011)
 +
  
  
yoshitaka_tanimura.txt ยท Last modified: 2020/11/11 09:53 by weinbub