Add to ORKGWe study the mixing of different kind of fields (scalar in 0+1D, scalar in 3+1D, fermion in 3+1D) treating the mixing term as an interaction. To this aim, we employ the usual perturbative series in the interaction picture. We find that expression for flavor changing probability exhibits corrections with respect to the usual quantum mechanical (e.g. neutrino) oscillation formula, in agreement with the result previously obtained in the non-perturbative flavor Fock space approach.Comment: Accepted for publication in EPJ
We present an analysis of a neutrino production and detection processes, necessary in order to descr...
We present a formulation, based on quantum field theory, for neutrino oscillation phenomenology that...
We investigate three-flavor neutrino oscillation affected by an environment mimicking a continuous ...
We study the mixing of different kind of fields (scalar in 0+1D, scalar in 3+1D, fermion in 3+1D) tr...
In the work, we derive exact analytic expressions for $(3+N)$-flavor neutrino oscillation probabilit...
The neutrino oscillations in vacuum are derived in a manifestly coherent scheme. The mechanism is op...
We developed multiple equations to observe the two and three flavors of neutrino oscillation with th...
In screening models with scalar-matter conformal coupling, we study the flavor transition of neutrin...
The best renormalizable theory in particle physics is the Standard Model. According to this model, n...
By resorting to recent results on fermion mixing which show that the Fock space of definite flavor s...
We formulate direct, neutrino flavor-changing interactions in a framework that fits smoothly with th...
We study how vacuum neutrino oscillations can be affected by a causal, nonlinear and state-dependent...
The non-equilibrium dynamics of mixing, oscillations and equilibration is studied in a field theory ...
We study a neutrino mass model with $A_4$ flavor symmetry using a type-I seesaw mechanism. The inclu...
AbstractWe study the evolution of the coupled scalar and fermion fields within the classical field t...
We present an analysis of a neutrino production and detection processes, necessary in order to descr...
We present a formulation, based on quantum field theory, for neutrino oscillation phenomenology that...
We investigate three-flavor neutrino oscillation affected by an environment mimicking a continuous ...
We study the mixing of different kind of fields (scalar in 0+1D, scalar in 3+1D, fermion in 3+1D) tr...
In the work, we derive exact analytic expressions for $(3+N)$-flavor neutrino oscillation probabilit...
The neutrino oscillations in vacuum are derived in a manifestly coherent scheme. The mechanism is op...
We developed multiple equations to observe the two and three flavors of neutrino oscillation with th...
In screening models with scalar-matter conformal coupling, we study the flavor transition of neutrin...
The best renormalizable theory in particle physics is the Standard Model. According to this model, n...
By resorting to recent results on fermion mixing which show that the Fock space of definite flavor s...
We formulate direct, neutrino flavor-changing interactions in a framework that fits smoothly with th...
We study how vacuum neutrino oscillations can be affected by a causal, nonlinear and state-dependent...
The non-equilibrium dynamics of mixing, oscillations and equilibration is studied in a field theory ...
We study a neutrino mass model with $A_4$ flavor symmetry using a type-I seesaw mechanism. The inclu...
AbstractWe study the evolution of the coupled scalar and fermion fields within the classical field t...
We present an analysis of a neutrino production and detection processes, necessary in order to descr...
We present a formulation, based on quantum field theory, for neutrino oscillation phenomenology that...
We investigate three-flavor neutrino oscillation affected by an environment mimicking a continuous ...