Presentation is loading. Please wait.

Presentation is loading. Please wait.

Yinghua Wu* Xin Chen, Yinghua Wu and Victor S. Batista Department of Chemistry, Yale University, New Haven, CT 06520-8107 Xin Chen * Current address: Department.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Yinghua Wu* Xin Chen, Yinghua Wu and Victor S. Batista Department of Chemistry, Yale University, New Haven, CT 06520-8107 Xin Chen * Current address: Department."— Presentation transcript:

1 Yinghua Wu* Xin Chen, Yinghua Wu and Victor S. Batista Department of Chemistry, Yale University, New Haven, CT 06520-8107 Xin Chen * Current address: Department of Chemistry, Tulane University. 228 th ACS National Meeting, August 22-August 26, 2004 Philadelphia Quantum/Classical Calculations in Chemistry and Biophysics Matching-Pursuit Representations for Simulations of Quantum Processes

2 Time-Sliced Simulations of Quantum Processes

3 Wu,Y.; Batista, V.S. J. Chem. Phys. 118, 6720 (2003) Wu,Y.; Batista, V.S. J. Chem. Phys. 119, 7606 (2003) Wu,Y.; Batista, V.S. J. Chem. Phys. 121, 1676 (2004) Chen, X., Wu,Y.; Batista, V.S. J. Chem. Phys. submitted (2004) Wu,Y.; Batista, V.S. J. Chem. Phys. in prep. (2004) MP/SOFT Method Trotter Expansion

4

5

6

7 ESIPT in the keto-enolic tautomerization of 2-(2’-hydroxyphenyl)-oxazole (HPO). Changes in hybridization and connectivity Classical Dynamics (HPMO) Vendrell, O.; Moreno, M.; Lluch J.M.; Hammes-Schiffer, S. J. Phys. Chem. B 108, 6745 (2004) Quantum Dynamics (7-d simulation, related ESIPT system) Petkovic, M.; Kuhn, O. J. Phys. Chem. A 107, 8458 (2003) SC-IVR (HPO) Guallar, V.; Batista, V.S.; Miller, W.H. J. Chem. Phys. 113, 9510 (2000) Batista, V.S.; Brumer, P. Phys. Rev. Lett. 89, 143201 (2002) Batista, V.S.; Brumer, P. Phys. Rev. Lett. 89, 249903 (2002)

8 Reaction Surface 35-dimensional Model V(r 1,r 2,z) = V 0 (r 1,r 2 ) + 1/2 [z- z 0 (r 1,r 2 )] F(r 1,r 2 ) [z-z 0 (r 1,r 2 )] V 0 : Reaction surface z 0 : ab initio geometries F : ab initio force constants r 1,r 2 : reaction coordinates

9 CIS/6-31G* Reaction Surface Potential V 0 (r 1,r 2 )

10 Computation of Observables Time dependent reactant population: Absorption Spectrum:

11 Time-Dependent Survival Amplitude HK SC-IVR vs. Classical Wigner Wigner SC-IVR

12 Time-Dependent Survival Amplitude HK SC-IVR vs. MP/SOFT

13 Time Dependent Reactant Population HK SC-IVR, Classical Wigner (SC/L) and WKB

14 WIGNER, TD-SCF, HK SC-IVR, MP/SOFT Time Dependent Reactant Population Early Time Relaxation Dynamics

15 WIGNER, TD-SCF, HK SC-IVR, MP/SOFT Time Dependent Reactant Population Longer Time Relaxation Dynamics [1] [2] [1] Wu,Y.; Batista, V.S. J. Chem. Phys. in prep. (2004) Guallar, V.; Batista, V.S.; Miller, W.H. J. Chem. Phys. 113, 9510 (2000)

16 Decoherence Dynamics HK SC-IVR vs. MP/SOFT Batista, V.S.; Brumer, P. Phys. Rev. Lett. 89, 143201 (2002) [2] [1] Wu,Y.; Batista, V.S. J. Chem. Phys. in prep. (2004)

17 Thermal Correlation Functions Boltzmann Ensemble Averages Chen, X., Wu,Y.; Batista, V.S. J. Chem. Phys. submitted (2004)

18 Bloch Equation: MP/SOFT Integration Partition Function Boltzmann Matrix:

19

20

21 Calculations of Thermal Correlation Functions Time-Dependent Position Ensemble Average Position-Position Correlation Function: Model System:

22 Classical density Quantum density Ground State, V 0 Excited State, V 1 Model System, cont’d

23 Position-Position Correlation Function

24 Time-Dependent Position Ensemble Average

25 Conclusions We have introduced the MP/SOFT method for time-sliced simulations of quantum processes in systems with many degrees of freedom. The MP/SOFT method generalizes the grid-based SOFT approach to non-orthogonal and dynamically adaptive coherent-state representations generated according to the matching-pursuit algorithm. The accuracy and efficiency of the resulting method were demonstrated in simulations of excited-state intramolecular proton transfer in 2-(2’- hydroxyphenyl)-oxazole (HPO), as modeled by an ab initio 35-dimensional reaction surface Hamiltonian. Further, we have extended the MP/SOFT method for computations of thermal equilibrium density matrices (equilibrium properties of quantum systems), finite temperature time-dependent expectation values and time- correlation functions. The extension involves solving the Bloch equation via imaginary-time propagation of the density matrix in dynamically adaptive coherent-state representations, and the evaluation of the Heisenberg time- evolution operators through real-time propagation.

26 NSF Career Award CHE#0345984 ACS PRF#37789-G6 NSF Nanoscale Exploratory Research (NER) Award ECS#0404191 Research Corporation, Innovation Award#RI0702 Hellman Family Fellowship Anderson Fellowship Yale University, Start-Up Package NERSC Allocation of Supercomputer Time ACS Meeting Organizing Committee (Prof. Hammes-Schiffer, Prof. Jensen) Thank you ! Acknowledgments

27 Electron Tunneling in Multidimensional Systems

28 2-dimensional (Model I)

29

30

31

32 2-dimensional (model I)

33 5-dimensional (model I)

34

35

36

37

38

39

40 10-dimensional (model I)

41 Electron Tunneling in Multidimensional Systems Model II

42 (2-dimension Model II)

43 2-dimensional (model II)

44

45 2-dimensional (Model II)

46 20-dimensional (Model II)

47 20-dimensional (model II) Benchmark calculation:

48 TS/SC-IVR Approach

49 The (TS) implementation avoids most of the difficulties of the standard SC-IVR, since the propagator is applied only for short time-slices while the semiclassical approximation is still accurate and efficient. However, the method introduces a new challenge: the reinitialization of the time-evolved wavefunction after each propagation time-slice. In order to optimize the efficiency of the re-expansion procedure, the time- evolved wavefunction is represented (“compressed”) at the end of each propagation time-slice according to a matching-pursuit coherent-state expansion.

50 TSHK QM HK 2-dimensional tunneling

51 157 nm TS/SC-IVR Approach

52 2.42 fs 3.63 fs 31 40 Instantaneous Time-Dependent Wavepackets

53 Survivial Amplitudes

54 Total Photodissociation Cross Sections

55 31 Partial Photodissociation Cross Sections

56

57

58 Conclusions We have introduced the MP/SOFT method for time-sliced simulations of quantum processes in systems with many degrees of freedom. The MP/SOFT method generalizes the grid-based SOFT approach to non-orthogonal and dynamically adaptive coherent-state representations generated according to the matching-pursuit algorithm. The accuracy and efficiency of the resulting method were demonstrated in simulations of deep-tunneling quantum dynamics for systems with up to 20 coupled degrees of freedom. Work in progress involves simulations of excited-state intramolecular proton transfer in 2,2’-hydroxyphenyl-oxazole as well as calculations of the equilibrium density matrix (equilibrium properties of quantum systems). We have also introduced the TS/SC-IVR approach, a method that concatenates finite-time propagators and computes real-time path integrals based on the HK SC-IVR. We have shown that the approach significantly improves not only the accuracy of simulations of deep-tunneling quantum dynamics based on the HK SC-IVR but also the accuracy of computations of photo-dissociation cross sections of vibrationally hot molecules (sensitive to subtle interference effects).

59 Acknowledgments NSF Career Award CHE-0345984 NSF Nanoscale Exploratory Research (NER) Award ECS-0404191 ACS PRF 37789-G6 Research Corporation, Innovation Award Hellman Family Fellowship Anderson Fellowship Yale University, Start-Up Package NERSC Allocation of Supercomputer Time CNLS Workshop Organizing Committee at LANL Thank you !

60 Reaction Coordinates in HPO r 1 : H-stretching

61 Reaction Coordinates in HPO r 2 : internal bending

Download ppt "Yinghua Wu* Xin Chen, Yinghua Wu and Victor S. Batista Department of Chemistry, Yale University, New Haven, CT 06520-8107 Xin Chen * Current address: Department."

Similar presentations

Introduction to Computational Chemistry NSF Computational Nanotechnology and Molecular Engineering Pan-American Advanced Studies Institutes (PASI) Workshop.

Introduction to Computational Chemistry NSF Computational Nanotechnology and Molecular Engineering Pan-American Advanced Studies Institutes (PASI) Workshop.
Wave function approaches to non-adiabatic systems

Wave function approaches to non-adiabatic systems
Multiscale Dynamics of Bio-Systems: Molecules to Continuum February 2005.

Multiscale Dynamics of Bio-Systems: Molecules to Continuum February 2005.
Xin Chen 1, Yinghua Wu 2 and Victor S. Batista Department of Chemistry, Yale University, New Haven, CT 06520-8107 The MP/SOFT methodology for simulations.

Xin Chen 1, Yinghua Wu 2 and Victor S. Batista Department of Chemistry, Yale University, New Haven, CT The MP/SOFT methodology for simulations.
Well Defined and Accurate Semiclassical Surface Hopping Propagators and Wave Functions Michael F. Herman Department of Chemistry Tulane University New.

Well Defined and Accurate Semiclassical Surface Hopping Propagators and Wave Functions Michael F. Herman Department of Chemistry Tulane University New.
Molecular Dynamics at Constant Temperature and Pressure Section 6.7 in M.M.

Molecular Dynamics at Constant Temperature and Pressure Section 6.7 in M.M.
1 APS March Meeting 2014, Denver, CO Practical Methods in Time- Dependent Density Functional Theory (TDDFT) at Elevated Temperatures R.J. Magyar, L. Shulenburger,

1 APS March Meeting 2014, Denver, CO Practical Methods in Time- Dependent Density Functional Theory (TDDFT) at Elevated Temperatures R.J. Magyar, L. Shulenburger,
*Current Address: Physics Department, Universidade Federal do Parana, CP 19044, Curitiba, PR, Brazil, 81531-990 Sabas Abuabara, Luis G.C. Rego * and Victor.

*Current Address: Physics Department, Universidade Federal do Parana, CP 19044, Curitiba, PR, Brazil, Sabas Abuabara, Luis G.C. Rego * and Victor.
NABIL F. FARUK, HUI LI, JING YANG, ROBERT J. LE ROY & PIERRE-NICHOLAS ROY Simulation Studies of the Vibrational Dynamics of para- Hydrogen Clusters 1.

NABIL F. FARUK, HUI LI, JING YANG, ROBERT J. LE ROY & PIERRE-NICHOLAS ROY Simulation Studies of the Vibrational Dynamics of para- Hydrogen Clusters 1.
The Hybrid Quantum Trajectory/Electronic Structure DFTB-based Approach to Molecular Dynamics Lei Wang Department of Chemistry and Biochemistry University.

The Hybrid Quantum Trajectory/Electronic Structure DFTB-based Approach to Molecular Dynamics Lei Wang Department of Chemistry and Biochemistry University.
Workshop on HPC in India Chemical Dynamics in Aqueous Media Amalendu Chandra Department of Chemistry, Indian Institute of Technology Kanpur, India 208016.

Workshop on HPC in India Chemical Dynamics in Aqueous Media Amalendu Chandra Department of Chemistry, Indian Institute of Technology Kanpur, India
Coherent Control of the Primary Event in Human Vision Samuel Flores and Victor S. Batista Yale University, Department of Chemistry

Coherent Control of the Primary Event in Human Vision Samuel Flores and Victor S. Batista Yale University, Department of Chemistry
Techniques for rare events: TA-MD & TA-MC Giovanni Ciccotti University College Dublin and Università “La Sapienza” di Roma In collaboration with: Simone.

Techniques for rare events: TA-MD & TA-MC Giovanni Ciccotti University College Dublin and Università “La Sapienza” di Roma In collaboration with: Simone.
Conical Intersections Spiridoula Matsika. The study of chemical systems is based on the separation of nuclear and electronic motion The potential energy.

Conical Intersections Spiridoula Matsika. The study of chemical systems is based on the separation of nuclear and electronic motion The potential energy.
Femtochemistry: A theoretical overview Mario Barbatti II – Transient spectra and excited states This lecture can be downloaded.

Femtochemistry: A theoretical overview Mario Barbatti II – Transient spectra and excited states This lecture can be downloaded.
The spectral method: time-dependent quantum dynamics of FHF - : Potential Energy Surface, Vibrational Eigenfunctions and Infrared Spectrum. Guillermo Pérez.

The spectral method: time-dependent quantum dynamics of FHF - : Potential Energy Surface, Vibrational Eigenfunctions and Infrared Spectrum. Guillermo Pérez.
Yinghua Wu* Xin Chen, Yinghua Wu and Victor S. Batista Department of Chemistry, Yale University, New Haven, CT 06520-8107 Xin Chen * Current address: Department.

Yinghua Wu* Xin Chen, Yinghua Wu and Victor S. Batista Department of Chemistry, Yale University, New Haven, CT Xin Chen * Current address: Department.
Femtochemistry: A theoretical overview Mario Barbatti III – Adiabatic approximation and non-adiabatic corrections This lecture.

Femtochemistry: A theoretical overview Mario Barbatti III – Adiabatic approximation and non-adiabatic corrections This lecture.
Mr. Yinghua Wu Multidimensional Quantum Dynamics: Methods and Applications Yinghua Wu, Luis G.C. Rego and Victor S. Batista Department of Chemistry, Yale.

Mr. Yinghua Wu Multidimensional Quantum Dynamics: Methods and Applications Yinghua Wu, Luis G.C. Rego and Victor S. Batista Department of Chemistry, Yale.
Sabas Abuabara, Luis G.C. Rego and Victor S. Batista Department of Chemistry, Yale University, New Haven, CT 06520-8107 Creating and Manipulating Electronic.

Sabas Abuabara, Luis G.C. Rego and Victor S. Batista Department of Chemistry, Yale University, New Haven, CT Creating and Manipulating Electronic.

Similar presentations

Ads by Google