Add to ORKGSimilarity of equations of motion for the classical and quantum trajectories is used to introduce afriction term dependent on the wavefunction phase into the time-dependent Schrödingerequation. The term describes irreversible energy loss by the quantum system. The force offriction is proportional to the velocity of a quantum trajectory. The resulting Schrödinger equationis nonlinear, conserves wavefunction normalization, and evolves an arbitrary wavefunction into the ground state of the system (of appropriate symmetry if applicable). Decrease in energy is proportional to the average kinetic energy of the quantum trajectory ensemble. Dynamics in the high friction regime is suitable for simple models of reactions proceeding with energy transf...
International audienceAn otherwise free classical particle moving through an extended spatially homo...
National audienceIn this contribution, we expose a new mixed quantum-classical reaction dynamics met...
National audienceIn this contribution, we expose a new mixed quantum-classical reaction dynamics met...
The hydrodynamic, or the de Broglie-Bohm, formulation provides an alternative to the conventional ti...
The hydrodynamic, or the de Broglie-Bohm, formulation provides an alternative to the conventional ti...
The hydrodynamic, or the de Broglie-Bohm, formulation provides an alternative to the conventional ti...
The method, described in the paper, incorporates ideas of the Bohmian formulation of quantum mechani...
The method, described in the paper, incorporates ideas of the Bohmian formulation of quantum mechani...
The method, described in the paper, incorporates ideas of the Bohmian formulation of quantum mechani...
A remarkable feature of standard quantum mechanics is its analogy with classical fluid dynamics. Thi...
We present a trajectory-based method that incorporates quantum effects in the context of Hamiltonian...
We present a trajectory-based method that incorporates quantum effects in the context of Hamiltonian...
The effect of nonlinear friction forces in quantum mechanics is studied via dissipative Madelung hyd...
National audienceIn this contribution, we expose a new mixed quantum-classical reaction dynamics met...
International audienceAn otherwise free classical particle moving through an extended spatially homo...
International audienceAn otherwise free classical particle moving through an extended spatially homo...
National audienceIn this contribution, we expose a new mixed quantum-classical reaction dynamics met...
National audienceIn this contribution, we expose a new mixed quantum-classical reaction dynamics met...
The hydrodynamic, or the de Broglie-Bohm, formulation provides an alternative to the conventional ti...
The hydrodynamic, or the de Broglie-Bohm, formulation provides an alternative to the conventional ti...
The hydrodynamic, or the de Broglie-Bohm, formulation provides an alternative to the conventional ti...
The method, described in the paper, incorporates ideas of the Bohmian formulation of quantum mechani...
The method, described in the paper, incorporates ideas of the Bohmian formulation of quantum mechani...
The method, described in the paper, incorporates ideas of the Bohmian formulation of quantum mechani...
A remarkable feature of standard quantum mechanics is its analogy with classical fluid dynamics. Thi...
We present a trajectory-based method that incorporates quantum effects in the context of Hamiltonian...
We present a trajectory-based method that incorporates quantum effects in the context of Hamiltonian...
The effect of nonlinear friction forces in quantum mechanics is studied via dissipative Madelung hyd...
National audienceIn this contribution, we expose a new mixed quantum-classical reaction dynamics met...
International audienceAn otherwise free classical particle moving through an extended spatially homo...
International audienceAn otherwise free classical particle moving through an extended spatially homo...
National audienceIn this contribution, we expose a new mixed quantum-classical reaction dynamics met...
National audienceIn this contribution, we expose a new mixed quantum-classical reaction dynamics met...