Add to ORKGStandard formulas for mass oscillations are based upon the approximation, $t definite momentum, $p$, or, alternatively, with definite energy, $E$. This represents an inconsistent scenario and gives an unjustified factor of two in mass oscillation formulas. Such an ambiguity has been a matter of speculations and mistakes in discussing flavour oscillations. We present a series of results and show how the problem of the factor two in the oscillation length is not a consequence of gedanken experiments, i.e. oscillations in time. The common velocity scenario yields the maximum simplicity and probably the right answer
Assuming neutrinos have a flavor-independent and small but nonzero rest mass, flavor oscillations ca...
Phenomenology of neutrino oscillations in vacuum and in cosmological plasma is considered. Neutrino ...
All the possible schemes of neutrino mixing with four massive neutrinos inspired by the existing exp...
We show that the neutrino oscillation formula recently derived in the quantum field theory framework...
Attempts to modify the standard expression for the phase in neutrino oscillations by an extra factor...
We consider three active flavor neutrino oscillations where both the mass-square differences play a ...
In the Standard theory of neutrino oscillations it is supposed that physical observed neutrino state...
A unique description avoiding confusion is presented for all flavor-oscillation experiments in which...
The relations between the effective Majorana mass of the electron neutrino, $m_{ee}$, responsible fo...
By resorting to recent results on fermion mixing which show that the Fock space of definite flavor s...
In the standard theory of neutrino oscillations it is supposed that physically observed neutrino sta...
A revolution in our understanding of the neutrino sector is underway, driven by observations that ar...
We argue that the neutrino oscillation probabilities in matter are best understood by allowing the m...
An extended study is performed of geometrical and kinematical assumptions used in calculations of th...
Linear transformations of the Dirac equation with two mass parameters result in "standard\u27\u27 fo...
Assuming neutrinos have a flavor-independent and small but nonzero rest mass, flavor oscillations ca...
Phenomenology of neutrino oscillations in vacuum and in cosmological plasma is considered. Neutrino ...
All the possible schemes of neutrino mixing with four massive neutrinos inspired by the existing exp...
We show that the neutrino oscillation formula recently derived in the quantum field theory framework...
Attempts to modify the standard expression for the phase in neutrino oscillations by an extra factor...
We consider three active flavor neutrino oscillations where both the mass-square differences play a ...
In the Standard theory of neutrino oscillations it is supposed that physical observed neutrino state...
A unique description avoiding confusion is presented for all flavor-oscillation experiments in which...
The relations between the effective Majorana mass of the electron neutrino, $m_{ee}$, responsible fo...
By resorting to recent results on fermion mixing which show that the Fock space of definite flavor s...
In the standard theory of neutrino oscillations it is supposed that physically observed neutrino sta...
A revolution in our understanding of the neutrino sector is underway, driven by observations that ar...
We argue that the neutrino oscillation probabilities in matter are best understood by allowing the m...
An extended study is performed of geometrical and kinematical assumptions used in calculations of th...
Linear transformations of the Dirac equation with two mass parameters result in "standard\u27\u27 fo...
Assuming neutrinos have a flavor-independent and small but nonzero rest mass, flavor oscillations ca...
Phenomenology of neutrino oscillations in vacuum and in cosmological plasma is considered. Neutrino ...
All the possible schemes of neutrino mixing with four massive neutrinos inspired by the existing exp...