Irrational numbers can be assigned to physical entities based on iterative processes of geometric objects. It is likely that iterative round trips of vector signals include a geometric phase component. If so, this component will couple back to the round trip frequency or path length generating an non-linear feedback loop (i.e. induced by precession). In this paper such a quantum feedback mechanism is defined including generalized fine structure constants in accordance with the fundamental gravitomagnetic relation of spin-orbit coupling. Supported by measurements, the general relativistic and topological background allows to propose, that the deviation of the fine structure constant from 1/137 could be assigned to Berry's phase. The interpre...
A wave function picks up, in addition to the dynamic phase, the geometric (Berry) phase when travers...
Spacetime memory is defined with a holonomic approach to information processing, where multi-state s...
When spinning particles, such as electrons and photons, undergo spin–orbit coupling, they can acquir...
Irrational numbers can be assigned to physical entities based on iterative processes of geometric ob...
Berry's phase carries physical information coded as topological and geometrical objects that can be ...
Geometric phases can be observed by interference as preferred scattering directions in the Aharonov-...
We are accustomed to think the phase of single particle states does not matter. After all, the phase...
In quantum information science, the phase of a wave function plays an important role in encoding inf...
Non-Abelian and non-adiabatic variants of Berry's geometric phase have been pivotal in the recent ad...
Abstract As a classical or quantum system undergoes a cyclic evolution governed by sl...
The state of a quantum system, adiabatically driven in a cycle, may acquire a measurable phase depen...
Geometric phases play a central role in a variety of quantum phenomena, especially in condensed matt...
The state vector representing a quantum system acquires a phase factor following an adiabatic evolut...
Within the adiabatic theorem we must explicitly add to the instantaneous adiabatic vectors, parametr...
Recently, dynamical anomalies more than critical slowing down are often observed near both the conti...
A wave function picks up, in addition to the dynamic phase, the geometric (Berry) phase when travers...
Spacetime memory is defined with a holonomic approach to information processing, where multi-state s...
When spinning particles, such as electrons and photons, undergo spin–orbit coupling, they can acquir...
Irrational numbers can be assigned to physical entities based on iterative processes of geometric ob...
Berry's phase carries physical information coded as topological and geometrical objects that can be ...
Geometric phases can be observed by interference as preferred scattering directions in the Aharonov-...
We are accustomed to think the phase of single particle states does not matter. After all, the phase...
In quantum information science, the phase of a wave function plays an important role in encoding inf...
Non-Abelian and non-adiabatic variants of Berry's geometric phase have been pivotal in the recent ad...
Abstract As a classical or quantum system undergoes a cyclic evolution governed by sl...
The state of a quantum system, adiabatically driven in a cycle, may acquire a measurable phase depen...
Geometric phases play a central role in a variety of quantum phenomena, especially in condensed matt...
The state vector representing a quantum system acquires a phase factor following an adiabatic evolut...
Within the adiabatic theorem we must explicitly add to the instantaneous adiabatic vectors, parametr...
Recently, dynamical anomalies more than critical slowing down are often observed near both the conti...
A wave function picks up, in addition to the dynamic phase, the geometric (Berry) phase when travers...
Spacetime memory is defined with a holonomic approach to information processing, where multi-state s...
When spinning particles, such as electrons and photons, undergo spin–orbit coupling, they can acquir...