Coherence and Wave Packets in Neutrino Oscillations

Giunti, C.

doi:10.1023/b:fopl.0000019651.53280.31

Cited by 97 publications

(117 citation statements)

References 72 publications

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“…Giunti has claimed [24] that the argument just presented is flawed and that coherent 'flavour eigenstates' of massive neutrinos are indeed produced in weak decay processes. To substantiate this claim it is suggested to define a 'lepton flavour eigenstate', not according to Eq.…”

Section: Flavour and Mass Neutrino Eigenstates In Pion Decaymentioning

confidence: 99%

Quantum Mechanics of ‘Two Path’ Experiments: Comparison of Neutrino Oscillations and the Young Double Slit

Field¹

2017

JPP

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Feynman path integral analyses of a two-neutrino-flavour electron appearence experiment and the Young double slit are compared. The comparison reveals a conceptual flaw in previous work of the present author that led to a false claim of the incorrectness of standard formulas for the oscillation phase. In both calculations, path amplitudes add coherently, but no putative 'neutrino flavour eigenstates' are invoked in the former case. It is shown that the coherent production of these eigenstates is incompatible with the measured values of Γ (π → eν)/Γ (π → µν) and the PMNS matrix elements. Applications of the path integral approach to other two-path quantum interference experiments are compared with neutrino oscillations, and other treatments of the latter in the literature are critically discussed.

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Section: Flavour and Mass Neutrino Eigenstates In Pion Decaymentioning

confidence: 99%

Quantum Mechanics of ‘Two Path’ Experiments: Comparison of Neutrino Oscillations and the Young Double Slit

Field¹

2017

JPP

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“…In order to justify the assumption (A3) it is necessary to treat massive neutrinos as wave packets [7], which are localized on the production process at the production time and propagate between the production and detection processes at a velocity close to the velocity of light. Such wave packet treatment [7,8,4,9] yields the standard formula for the oscillation length. In addition, the different group velocities of different massive neutrinos imply the existence of a coherence length for the oscillations, beyond which the wave packets of different massive neutrinos do not jointly overlap with the detection process [10,11].…”

Section: Talk Presented At Ifae 2003 Lecce 23-26 April 2003mentioning

confidence: 99%

“…The wave packet treatment of neutrino oscillations is also necessary for a correct description of the momentum and energy uncertainties necessary for the coherent production and detection of different massive neutrinos [12,13,9], whose interference generates the oscillations.…”

Section: Talk Presented At Ifae 2003 Lecce 23-26 April 2003mentioning

confidence: 99%

“…[14,9] on the basis of simple relativistic arguments. Indeed, the relativistic transformation of energy and momentum implies that the equal momentum assumption cannot hold concurrently in different inertial systems.…”

Section: Talk Presented At Ifae 2003 Lecce 23-26 April 2003mentioning

confidence: 99%

“…Therefore, the probability of neutrino oscillations is Lorentz invariant [15,16] and must be derived in a covariant way. In fact, the oscillation probability has been derived without special assumptions about the energies and momenta of the different massive neutrino components both in the plane wave approach [17,15,6] and in the wave packet treatment [7,8,14,9].…”

Section: Talk Presented At Ifae 2003 Lecce 23-26 April 2003mentioning

confidence: 99%

See 2 more Smart Citations

Theory of Neutrino Oscillations

Giunti

2005

Particle Physics in Laboratory, Space and Universe

Self Cite

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The standard theory of neutrino oscillations has been formulated in the middle 70's (see Ref. [1]) on the basis of some assumptions that we are going to review critically. The main assumptions are four:(A1) Neutrinos are ultrarelativistic particles.(A2) Neutrinos produced or detected in CC weak interaction processes are described by the flavor stateswhere U is the unitary mixing matrix, α = e, µ, τ , and |ν k is the state of a neutrino with mass m k .(A3) The propagation time T is equal to the source-detector distance L.(A4) The massive neutrino states |ν k in Eq. ( 1) have the same momentum, p k = p ≃ E ("equal momentum assumption"), and different energies,, where E is the neutrino energy neglecting mass effects and the approximations are valid for ultrarelativistic neutrinos.

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Phenomenology of Neutrino Oscillations

Zhang

Zhou

2011

Neutrinos in Particle Physics, Astronomy and Cosmology

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Coherence and Wave Packets in Neutrino Oscillations

Cited by 97 publications

References 72 publications

Quantum Mechanics of ‘Two Path’ Experiments: Comparison of Neutrino Oscillations and the Young Double Slit

Quantum Mechanics of ‘Two Path’ Experiments: Comparison of Neutrino Oscillations and the Young Double Slit

Theory of Neutrino Oscillations

Phenomenology of Neutrino Oscillations

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