We present a semiclassical analysis of lasing with an injected signal in a system of cold two-level atoms where the effects of atomic recoil are included self-consistently. This analysis predicts that the atoms may bunch under the effects of dipole forces to produce a density grating. This grating produces distributed feedback which can induce lasing action even when the gain of the atomic medium is less than the cavity losses
We extend the Collective Atomic Recoil Lasing (CARL) model including the effects of friction and dif...
We extend the collective atomic recoil lasing (CARL) model including the effects of friction and dif...
We discuss the formation of optomechanical structures from the interaction between linear dielectric...
We present a semiclassical analysis of lasing with an injected signal in a system of cold two-level ...
We investigate the evolution of a system of two-level atoms interacting with two counterpropagating ...
This theoretical doctoral thesis investigates the collective effects that emerge in cold atomic syst...
Using a density matrix approach, we study the simplest systems that display both gain and feedback: ...
Elaborating versatile strategies for new lasing schemes is important for both fundamental research a...
There is currently a strong interest in mirrorless lasing systems(1), in which the electromagnetic f...
We investigate transverse effects in collective atomic recoil lasing (CARL), where a cold atomic sam...
Networks of globally coupled oscillators exhibit phase transitions from incoherent to coherent state...
10 pagesThe interaction of an atomic gas confined inside a cavity containing a strong electromagneti...
A theoretical analysis of absorptive optical bistability in a passive atomic medium and bidirectiona...
We present a theoretical study of the interaction between light and a cold gasof three-level, ladder...
We theoretically, numerically and experimentally investigate spontaneous transverse instabilities in...
We extend the Collective Atomic Recoil Lasing (CARL) model including the effects of friction and dif...
We extend the collective atomic recoil lasing (CARL) model including the effects of friction and dif...
We discuss the formation of optomechanical structures from the interaction between linear dielectric...
We present a semiclassical analysis of lasing with an injected signal in a system of cold two-level ...
We investigate the evolution of a system of two-level atoms interacting with two counterpropagating ...
This theoretical doctoral thesis investigates the collective effects that emerge in cold atomic syst...
Using a density matrix approach, we study the simplest systems that display both gain and feedback: ...
Elaborating versatile strategies for new lasing schemes is important for both fundamental research a...
There is currently a strong interest in mirrorless lasing systems(1), in which the electromagnetic f...
We investigate transverse effects in collective atomic recoil lasing (CARL), where a cold atomic sam...
Networks of globally coupled oscillators exhibit phase transitions from incoherent to coherent state...
10 pagesThe interaction of an atomic gas confined inside a cavity containing a strong electromagneti...
A theoretical analysis of absorptive optical bistability in a passive atomic medium and bidirectiona...
We present a theoretical study of the interaction between light and a cold gasof three-level, ladder...
We theoretically, numerically and experimentally investigate spontaneous transverse instabilities in...
We extend the Collective Atomic Recoil Lasing (CARL) model including the effects of friction and dif...
We extend the collective atomic recoil lasing (CARL) model including the effects of friction and dif...
We discuss the formation of optomechanical structures from the interaction between linear dielectric...