Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Curs: 2016, Tutor: Josep Taron RocaWe have studied a recent experiment reported in [1] which manifests the discrete nature of the electromagnetic field inside a cavity. There, it is observed the coupling of atoms to the e.m. field. We have reproduced the calculations leading to the observation of discrete transition frequencies between two states of the atom. These frequencies are proportional to the square root of successive integers, which is a direct evidence of field quantization. Also, we have discussed the validity of the approximations that we have made
We observe that a mesoscopic field made of several tens of microwave photons exhibits quantum featur...
The enhanced coupling between atoms and photons inside a high-finesse optical cavity provides a nove...
Our cavity Quantum Electrodynamics experiment consists of two simple and well controlled systems int...
Cavity quantum electrodynamics (QED) allows the study of light-matter interactions at the most basic...
The experiments discussed in this thesis focus on the interaction of a single trapped atom with the ...
On the occasion of the hundredth anniversary of Albert Einstein's annus mirabilis, we reflect on the...
International audienceCircular Rydberg atom and electromagnetic field stored in superconducting cavi...
We show that a two-level atom resonantly coupled to one of the modes of a cavity field can be used a...
We establish a connection between the simple harmonic oscillator and a two-level atom interacting wi...
Circular Rydberg atom and electromagnetic field stored in superconducting cavity constitute a simple...
A feasible experiment was proposed to investigate quantum effects in geometric phases, arising when ...
We report on recent progress in our lab involving cavity quantum electrodynamics with optically trap...
Cataloged from PDF version of article.It is shown that the vacuum fluctuations of an electromagnetic...
Cavity quantum electrodynamics (QED) captures the essential interaction between two quantum systems,...
We find the observables that-can be determined by two practical schemes based on atom-field resonant...
We observe that a mesoscopic field made of several tens of microwave photons exhibits quantum featur...
The enhanced coupling between atoms and photons inside a high-finesse optical cavity provides a nove...
Our cavity Quantum Electrodynamics experiment consists of two simple and well controlled systems int...
Cavity quantum electrodynamics (QED) allows the study of light-matter interactions at the most basic...
The experiments discussed in this thesis focus on the interaction of a single trapped atom with the ...
On the occasion of the hundredth anniversary of Albert Einstein's annus mirabilis, we reflect on the...
International audienceCircular Rydberg atom and electromagnetic field stored in superconducting cavi...
We show that a two-level atom resonantly coupled to one of the modes of a cavity field can be used a...
We establish a connection between the simple harmonic oscillator and a two-level atom interacting wi...
Circular Rydberg atom and electromagnetic field stored in superconducting cavity constitute a simple...
A feasible experiment was proposed to investigate quantum effects in geometric phases, arising when ...
We report on recent progress in our lab involving cavity quantum electrodynamics with optically trap...
Cataloged from PDF version of article.It is shown that the vacuum fluctuations of an electromagnetic...
Cavity quantum electrodynamics (QED) captures the essential interaction between two quantum systems,...
We find the observables that-can be determined by two practical schemes based on atom-field resonant...
We observe that a mesoscopic field made of several tens of microwave photons exhibits quantum featur...
The enhanced coupling between atoms and photons inside a high-finesse optical cavity provides a nove...
Our cavity Quantum Electrodynamics experiment consists of two simple and well controlled systems int...