Add to ORKGWe analytically tackle opto-vibronic interactions in molecular systems driven by either classical or quantum light fields. In particular, we examine a simple model of molecules with two relevant electronic levels, characterized by potential landscapes with different positions of minima along the internuclear coordinate and of varying curvatures. Such systems exhibit an electron-vibron interaction, which can be comprised of linear and quadratic terms in the vibrational displacement. By employing a combination of conditional displacement and squeezing operators, we present analytical expressions based on a quantum Langevin equations approach, to describe the emission and absorption spectra of such nonlinear molecular systems. Furthermore, we ...
We consider the nonequilibrium quantum vibrations of a molecule clamped between two macroscopic lead...
openNon-covalent van Der Waals (vdW) forces are due to coupled dipole oscillations, and play a key r...
In this work we study from a theoretical point of view microcavities embedding organic materials fea...
Molecules constitute compact hybrid quantum optical systems that can interface photons, electronic d...
In this theoretical work, we study the vibrational multi-quanta dynamics of nonlinear quantum lattic...
We discuss Floquet engineering of dissipative molecular systems through periodic driving of an infra...
We investigate the interaction between light and molecular systems modeled as quantum emitters coupl...
We present a new computational framework to describe polaritons, which treats photons and electrons ...
Light-matter interactions are fundamentally important in chemistry. While traditional theory usually...
In this work, we provide an overview of how well-established concepts in the fields of quantum chemi...
[EN] The studies in the field of cavity Quantum Electrodynamics (cavity-QED) during the last century...
We develop a quantum mechanical formalism to treat the strong coupling between an electromagnetic mo...
Quantum vibronic effects have a remarkable impact on the lineshape of electronic spectra.1 They can ...
Nonlinear electron-lattice (vibronic) dynamics of solids and molecular systems belongs to important ...
We show how linear vibronic spectra in molecular systems can be simulated efficiently using first-pr...
We consider the nonequilibrium quantum vibrations of a molecule clamped between two macroscopic lead...
openNon-covalent van Der Waals (vdW) forces are due to coupled dipole oscillations, and play a key r...
In this work we study from a theoretical point of view microcavities embedding organic materials fea...
Molecules constitute compact hybrid quantum optical systems that can interface photons, electronic d...
In this theoretical work, we study the vibrational multi-quanta dynamics of nonlinear quantum lattic...
We discuss Floquet engineering of dissipative molecular systems through periodic driving of an infra...
We investigate the interaction between light and molecular systems modeled as quantum emitters coupl...
We present a new computational framework to describe polaritons, which treats photons and electrons ...
Light-matter interactions are fundamentally important in chemistry. While traditional theory usually...
In this work, we provide an overview of how well-established concepts in the fields of quantum chemi...
[EN] The studies in the field of cavity Quantum Electrodynamics (cavity-QED) during the last century...
We develop a quantum mechanical formalism to treat the strong coupling between an electromagnetic mo...
Quantum vibronic effects have a remarkable impact on the lineshape of electronic spectra.1 They can ...
Nonlinear electron-lattice (vibronic) dynamics of solids and molecular systems belongs to important ...
We show how linear vibronic spectra in molecular systems can be simulated efficiently using first-pr...
We consider the nonequilibrium quantum vibrations of a molecule clamped between two macroscopic lead...
openNon-covalent van Der Waals (vdW) forces are due to coupled dipole oscillations, and play a key r...
In this work we study from a theoretical point of view microcavities embedding organic materials fea...