We discuss the hydrodynamic approach to the study of the time evolution -induced by a quench- of local excitations in one dimension. We focus on interaction quenches: the considered protocol consists in creating a stable localized excitation propagating through the system, and then operating a sudden change of the interaction between the particles. To highlight the effect of the quench, we take the initial excitation to be a soliton. The quench splits the excitation into two packets moving in opposite directions, whose characteristics can be expressed in a universal way. Our treatment allows to describe the internal dynamics of these two packets in terms of the different velocities of their components. We confirm our analytical predictions ...
We study dynamics of bosonic atoms on a two dimensional square lattice, where atomic interactions ar...
We study nonhomogeneous quantum quenches in a one-dimensional gas of repulsive spin-1/2 fermions, as...
We study nonhomogeneous quantum quenches in a one-dimensional gas of repulsive spin-1/2 fermions, as...
We discuss the hydrodynamic approach to the study of the time evolution -induced by a quench- of loc...
We discuss the hydrodynamic approach to the study of the time evolution -induced by a quench- of loc...
3We discuss the hydrodynamic approach to the study of the time evolution -induced by a quench- of lo...
4We propose a new type of experimentally feasible quantum quench protocol in which a quantum system ...
Recent advances in the tunability of ultracold atomic gases have created opportunities for studying ...
We propose a new type of experimentally feasible quantum quench protocol in which a quantum system i...
This thesis contains several experimental studies centered around the dynamics of bosons in one dime...
We consider two weakly interacting quasi-1D condensates of cold bosonic atoms. It turns out that a t...
This thesis contains several experimental studies centered around the dynamics of bosons in one dime...
This thesis contains several experimental studies centered around the dynamics of bosons in one dime...
We experimentally study the excitation modes of bright matter-wave solitons in a quasi-one-dimension...
The field of ultra-cold atomic physics allows probing of two-component quantum liquids with a hydrod...
We study dynamics of bosonic atoms on a two dimensional square lattice, where atomic interactions ar...
We study nonhomogeneous quantum quenches in a one-dimensional gas of repulsive spin-1/2 fermions, as...
We study nonhomogeneous quantum quenches in a one-dimensional gas of repulsive spin-1/2 fermions, as...
We discuss the hydrodynamic approach to the study of the time evolution -induced by a quench- of loc...
We discuss the hydrodynamic approach to the study of the time evolution -induced by a quench- of loc...
3We discuss the hydrodynamic approach to the study of the time evolution -induced by a quench- of lo...
4We propose a new type of experimentally feasible quantum quench protocol in which a quantum system ...
Recent advances in the tunability of ultracold atomic gases have created opportunities for studying ...
We propose a new type of experimentally feasible quantum quench protocol in which a quantum system i...
This thesis contains several experimental studies centered around the dynamics of bosons in one dime...
We consider two weakly interacting quasi-1D condensates of cold bosonic atoms. It turns out that a t...
This thesis contains several experimental studies centered around the dynamics of bosons in one dime...
This thesis contains several experimental studies centered around the dynamics of bosons in one dime...
We experimentally study the excitation modes of bright matter-wave solitons in a quasi-one-dimension...
The field of ultra-cold atomic physics allows probing of two-component quantum liquids with a hydrod...
We study dynamics of bosonic atoms on a two dimensional square lattice, where atomic interactions ar...
We study nonhomogeneous quantum quenches in a one-dimensional gas of repulsive spin-1/2 fermions, as...
We study nonhomogeneous quantum quenches in a one-dimensional gas of repulsive spin-1/2 fermions, as...