Revisiting the origin of neutrino flavor transformations
- URL: http://arxiv.org/abs/2407.00954v4
- Date: Tue, 17 Dec 2024 04:07:13 GMT
- Title: Revisiting the origin of neutrino flavor transformations
- Authors: Shi-Biao Zheng,
- Abstract summary: I propose an alternative mechanism that can reasonably account for neutrino transformations.
It is based on virtual excitation of the Z bosonic field over the space.
When the neutrino propagates in matter, its behavior is determined by the competition between the coherent flavor transformation and decoherence effect resulting from scatterings.
- Score: 0.0
- License:
- Abstract: To account for neutrino oscillations, it was postulated that the neutrino has nonvanishing mass and each flavor eigenstate is formed by a quantum superposition of three distinct mass eigenstates, whose probability amplitudes interfere with each other during its propagation. However, I find that a neutrino or antineutrino produced by the decay of an unstable particle cannot be in such a superposition, as different mass eigenstates, if they exist, are necessarily correlated with different momentum states of the composite system produced by the decay, which would destroy the quantum coherence among these mass eigenstates. I further find that the states of a neutrino and an electron become nonseparable after their charged-current interaction. This nonseparability leads to decoherence for neutrinos propagating in matter, but was not taken into consideration in previous investigations of the matter effect. Due to this decoherence, the deficit of solar electron neutrinos cannot exceed 1/2 based on the aforementioned postulation even if the corresponding superposition of mass eigenstates can be produced. These results unambiguously show that the origin of neutrino flavor transformations needs to be revisited. I propose an alternative mechanism that can reasonably account for neutrino transformations. It is based on virtual excitation of the Z bosonic field diffusing over the space. During the propagation, the neutrino can continually excite and then immediately re-absorb a virtual Z boson. This virtual bosonic excitation produces a backaction on the neutrino, enabling it to oscillate among three flavors. When the neutrino propagates in matter, its behavior is determined by the competition between the coherent flavor transformation and decoherence effect resulting from scatterings.
Related papers
- Quantum coherence between mass eigenstates of a neutrino can be destroyed by its mass-momentum entanglement [0.0]
I illustrate that this entanglement would destroy the quantum coherence between the neutrino's mass eigenstates in both the momentum and position representations.
I further point out that the states of a neutrino and an electron become nonseparable after their charged-current interaction.
arXiv Detail & Related papers (2024-10-29T08:20:40Z) - Three-flavor Collective Neutrino Oscillations on D-Wave's {\tt Advantage} Quantum Annealer [0.0]
Results of simulations of Dirac neutrino-neutrino interactions performed on D-Wave Inc.'s tt Advantage 5000+ qubit quantum annealer.
The D-Wave tt Advantage annealer is shown to be able to reproduce time evolution with the precision of a classical machine for small numbers of neutrinos.
arXiv Detail & Related papers (2024-05-30T19:27:19Z) - Ultracold Neutrons in the Low Curvature Limit: Remarks on the
post-Newtonian effects [49.1574468325115]
We apply a perturbative scheme to derive the non-relativistic Schr"odinger equation in curved spacetime.
We calculate the next-to-leading order corrections to the neutron's energy spectrum.
While the current precision for observations of ultracold neutrons may not yet enable to probe them, they could still be relevant in the future or in alternative circumstances.
arXiv Detail & Related papers (2023-12-30T16:45:56Z) - Mixed states for neutral current neutrino oscillation [0.0]
neutrino-antineutrino pairs are produced coherently and they are detected with definite flavor in detectors.
We reanalyze this problem by considering some massive neutrinos mixed with light neutrinos.
We see that the oscillation pattern cannot be observed for incoherent neutrinos.
arXiv Detail & Related papers (2023-01-18T18:18:39Z) - Probing the symmetry breaking of a light--matter system by an ancillary
qubit [50.591267188664666]
Hybrid quantum systems in the ultrastrong, and even more in the deep-strong, coupling regimes can exhibit exotic physical phenomena.
We experimentally observe the parity symmetry breaking of an ancillary Xmon artificial atom induced by the field of a lumped-element superconducting resonator.
This result opens a way to experimentally explore the novel quantum-vacuum effects emerging in the deep-strong coupling regime.
arXiv Detail & Related papers (2022-09-13T06:14:08Z) - Trapped-Ion Quantum Simulation of Collective Neutrino Oscillations [55.41644538483948]
We study strategies to simulate the coherent collective oscillations of a system of N neutrinos in the two-flavor approximation using quantum computation.
We find that the gate complexity using second order Trotter- Suzuki formulae scales better with system size than with other decomposition methods such as Quantum Signal Processing.
arXiv Detail & Related papers (2022-07-07T09:39:40Z) - Experimental observation of thermalization with noncommuting charges [53.122045119395594]
Noncommuting charges have emerged as a subfield at the intersection of quantum thermodynamics and quantum information.
We simulate a Heisenberg evolution using laser-induced entangling interactions and collective spin rotations.
We find that small subsystems equilibrate to near a recently predicted non-Abelian thermal state.
arXiv Detail & Related papers (2022-02-09T19:00:00Z) - Simulation of Collective Neutrino Oscillations on a Quantum Computer [117.44028458220427]
We present the first simulation of a small system of interacting neutrinos using current generation quantum devices.
We introduce a strategy to overcome limitations in the natural connectivity of the qubits and use it to track the evolution of entanglement in real-time.
arXiv Detail & Related papers (2021-02-24T20:51:25Z) - Intrinsic quantum coherence in particle oscillations [0.0]
In this talk, several inconsistencies of the standard approach to particle oscillations will be explained.
The massive neutrino states are interpreted as quasiparticles on a vacuum condensate of "Cooper pairs" of massless neutrinos.
The newly defined oscillating particle states are for neutrino oscillations what the Klauder--Sudarshan--Glauber coherent states are for quantum optics.
arXiv Detail & Related papers (2020-12-29T17:35:51Z) - The Neutrino Casimir Force [77.34726150561087]
We calculate the neutrino Casimir force between plates, allowing for two different mass eigenstates within the loop.
We discuss the possibility of distinguishing whether neutrinos are Majorana or Dirac fermions using these quantum forces.
arXiv Detail & Related papers (2020-03-24T18:00:02Z) - Theory of Neutrino Detection -- Flavor Oscillations and Weak Values [0.0]
We show that, in the relativistic limit, the quantum theory of neutrino oscillations can be described through the theory of weak measurements.
We write down the flavor equation of motion and calculate the flavor oscillation probability by showing precisely how a single neutrino interferes with itself.
arXiv Detail & Related papers (2020-02-18T22:51:36Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.