Theoretical and experimental studies of Berry and Pancharatnam phases are reviewed. Basic elements of differential geometry are presented for understanding the topological nature of these phases. The basic theory analyzed by Berry in relation to magnetic monopoles is presented. The theory is generalized to nonadiabatic processes and to noncyclic Pancharatnam phases. Different systems are discussed including polarization optics, n-level atomic systems, neutron interferometry and molecular topological phases
As one of the main approaches to implement phase gradient in metasurfaces, Pancharatnam-Berry (PB) p...
We study a class of translational-invariant insulators with discrete rotational symmetry. These insu...
PosterInternational audienceThe geometric phase was first anticipated 1956 by Pancharatnam, in the c...
Over the past twenty-five years, mathematical concepts associated with geometric phases have come to...
A theoretical analysis of Pancharatnam and Berry phases is made for biphoton three-level systems, wh...
Open Access. Reprinted in Selected papers on interference, interferometry and interferometric metrol...
Restricted Access.We describe an interferometer based on the Pancharatnam phase in which the extra p...
If the state of polarization of a monochromatic light beam is changed in a cyclical manner, the beam...
Experiments with spin polarized neutrons in both spatially and time varying magnetic fields demonstr...
Abstract. Since the appearance of Berry’s seminal paper in 1984, geometric phases have been discover...
The research described in this thesis focuses on topological phases in condensed matter systems. It ...
Restricted Access.To demonstrate the Pancharatnam phase as a geometric (Berry's) phase, each polariz...
By using a Michelson interferometer arrangement, we have measured the phase shift (the Pancharatnam ...
We give a simple description of the Pancharatnam-Berry geometric phase and some of its applications ...
We address the importance of the modern theory of orbital magnetization for spintronics. Based on an...
As one of the main approaches to implement phase gradient in metasurfaces, Pancharatnam-Berry (PB) p...
We study a class of translational-invariant insulators with discrete rotational symmetry. These insu...
PosterInternational audienceThe geometric phase was first anticipated 1956 by Pancharatnam, in the c...
Over the past twenty-five years, mathematical concepts associated with geometric phases have come to...
A theoretical analysis of Pancharatnam and Berry phases is made for biphoton three-level systems, wh...
Open Access. Reprinted in Selected papers on interference, interferometry and interferometric metrol...
Restricted Access.We describe an interferometer based on the Pancharatnam phase in which the extra p...
If the state of polarization of a monochromatic light beam is changed in a cyclical manner, the beam...
Experiments with spin polarized neutrons in both spatially and time varying magnetic fields demonstr...
Abstract. Since the appearance of Berry’s seminal paper in 1984, geometric phases have been discover...
The research described in this thesis focuses on topological phases in condensed matter systems. It ...
Restricted Access.To demonstrate the Pancharatnam phase as a geometric (Berry's) phase, each polariz...
By using a Michelson interferometer arrangement, we have measured the phase shift (the Pancharatnam ...
We give a simple description of the Pancharatnam-Berry geometric phase and some of its applications ...
We address the importance of the modern theory of orbital magnetization for spintronics. Based on an...
As one of the main approaches to implement phase gradient in metasurfaces, Pancharatnam-Berry (PB) p...
We study a class of translational-invariant insulators with discrete rotational symmetry. These insu...
PosterInternational audienceThe geometric phase was first anticipated 1956 by Pancharatnam, in the c...