Publications
Path Integral Formulation Of Centroid Dynamics For Systems Obeying Bose–Einstein Statistics. The Journal of Chemical Physics 2001, 115, 4484–4495.
. Path Integral Formulation Of Centroid Dynamics For Systems Obeying Bose–Einstein Statistics. The Journal of Chemical Physics 2001, 115, 4484–4495.
. Path Integral Formulation Of Centroid Dynamics For Systems Obeying Bose–Einstein Statistics. The Journal of Chemical Physics 2001, 115, 4484–4495.
. Particle Entanglement In Continuum Many-Body Systems Via Quantum Monte Carlo. Physical Review B 2014, 89, 140501.
. Particle Entanglement In Continuum Many-Body Systems Via Quantum Monte Carlo. Physical Review B 2014, 89, 140501.
. Particle Entanglement In Continuum Many-Body Systems Via Quantum Monte Carlo. Physical Review B 2014, 89, 140501.
. On The Origin And Convergence Of A Post-Quantization Constrained Propagator For Path Integral Simulations Of Rigid Bodies. The Journal of chemical physics 2013, 138, 184101.
. On The Origin And Convergence Of A Post-Quantization Constrained Propagator For Path Integral Simulations Of Rigid Bodies. The Journal of chemical physics 2013, 138, 184101.
. On The Origin And Convergence Of A Post-Quantization Constrained Propagator For Path Integral Simulations Of Rigid Bodies. The Journal of chemical physics 2013, 138, 184101.
. Optimized Basis Sets For Dmrg Calculations Of Quantum Chains Of Rotating Water Molecules. The Journal of Chemical Physics 2023, 158, 214103.
. Optimized Basis Sets For Dmrg Calculations Of Quantum Chains Of Rotating Water Molecules. arXiv preprint arXiv:2304.09410 2023.
. Operator Formulation Of Feynman Path Centroid Dynamics For Rotations. The Journal of Physical Chemistry A 2024, 128, 3419–3433.
. Operator Formulation Of Centroid Dynamics For Bose–Einstein And Fermi–Dirac Statistics. The Journal of Chemical Physics 2001, 115, 7822–7831.
. Operator Formulation Of Centroid Dynamics For Bose–Einstein And Fermi–Dirac Statistics. The Journal of Chemical Physics 2001, 115, 7822–7831.
. Operator Formulation Of Centroid Dynamics For Bose–Einstein And Fermi–Dirac Statistics. The Journal of Chemical Physics 2001, 115, 7822–7831.
. . A New Six-Dimensional Potential Energy Surface For H2–N2O And Its Adiabatic-Hindered-Rotor Treatment. The Journal of chemical physics 2013, 139, 034312.
. A New Six-Dimensional Potential Energy Surface For H2–N2O And Its Adiabatic-Hindered-Rotor Treatment. The Journal of chemical physics 2013, 139, 034312.
. A New Six-Dimensional Potential Energy Surface For H2–N2O And Its Adiabatic-Hindered-Rotor Treatment. The Journal of chemical physics 2013, 139, 034312.
. A New Potential Energy Surface For N_2O–He, And Pimc Simulations Probing Infrared Spectra And Superfluidity. In 65th International Symposium On Molecular Spectroscopy; 2010; Vol. 65, p. RI07.
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