Add to ORKGAbstract. We have measured the AC-Stark shift of the 14D5/2 Rydberg state of rubidium 87 in an optical dipole trap formed by a focussed CO2-laser. We find good quantitative agreement with the model of a free electron experiencing a ponderomotive potential in the light field. In order to reproduce the observed spectra we take into account the broadening of the Rydberg state due to photoionization. The extracted cross-section is compatible with previous measurements on neighboring Rydberg states. ar X i
The Stark effect in molecular Rydberg states is qualitatively different from the Stark effect in ato...
Ultracold Rydberg atoms in a static electric field can exchange energy via the dipole-dipole interac...
Ultracold Rydberg atoms in a static electric field can exchange energy via the dipole-dipole interac...
In this work, we study the role of the ac Stark effects on the excitation of nS(1/2) cold Rydberg at...
Atoms with an electron in an energy level with high principal quantum number n are known as Rydberg ...
We have studied the Stark effect for Rydberg p states of noble gas atoms using laser optogalvanic sp...
As molecular Rydberg states are very sensitive to external influences, various effects are expected ...
Positronium atoms were produced in Rydberg states by means of a two-step optical excitation process ...
Rydberg spectroscopy of rubidium cold atoms trapped in a magneto-optical trap (MOT) was performed in...
The dipole-dipole interaction strongly couples ultracold highly excited atoms, known as Rydberg atom...
The Stark spectra of autoionizing Rydberg states of Ar converging to the second ionization limit 3p5...
The ac Stark effect was used to induce resonant energy transfer between translationally cold Rydberg...
During the course of this PhD an experimental set-up has been designed and implemented to confine ne...
Stark effects in Rydberg states of xenon atoms were investigated both experimentally and theoretical...
Rydberg positronium (Ps) atoms have been prepared in selected Stark states via two-step (1s→2p...
The Stark effect in molecular Rydberg states is qualitatively different from the Stark effect in ato...
Ultracold Rydberg atoms in a static electric field can exchange energy via the dipole-dipole interac...
Ultracold Rydberg atoms in a static electric field can exchange energy via the dipole-dipole interac...
In this work, we study the role of the ac Stark effects on the excitation of nS(1/2) cold Rydberg at...
Atoms with an electron in an energy level with high principal quantum number n are known as Rydberg ...
We have studied the Stark effect for Rydberg p states of noble gas atoms using laser optogalvanic sp...
As molecular Rydberg states are very sensitive to external influences, various effects are expected ...
Positronium atoms were produced in Rydberg states by means of a two-step optical excitation process ...
Rydberg spectroscopy of rubidium cold atoms trapped in a magneto-optical trap (MOT) was performed in...
The dipole-dipole interaction strongly couples ultracold highly excited atoms, known as Rydberg atom...
The Stark spectra of autoionizing Rydberg states of Ar converging to the second ionization limit 3p5...
The ac Stark effect was used to induce resonant energy transfer between translationally cold Rydberg...
During the course of this PhD an experimental set-up has been designed and implemented to confine ne...
Stark effects in Rydberg states of xenon atoms were investigated both experimentally and theoretical...
Rydberg positronium (Ps) atoms have been prepared in selected Stark states via two-step (1s→2p...
The Stark effect in molecular Rydberg states is qualitatively different from the Stark effect in ato...
Ultracold Rydberg atoms in a static electric field can exchange energy via the dipole-dipole interac...
Ultracold Rydberg atoms in a static electric field can exchange energy via the dipole-dipole interac...