Stefano De Leo scite author profile

Abstract. In the standard treatment of particle oscillations the mass eigenstates are implicitly assumed to be scalars and, consequently, the spinorial form of neutrino wave functions is not included in the calculations. To analyze this additional effect, we discuss the oscillation probability formula obtained by using the Dirac equation as evolution equation for the neutrino mass eigenstates. The initial localization of the spinor state also implies an interference between positive and negative energy components of mass eigenstate wave packets which modifies the standard oscillation probability.

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Quaternionic potentials in non-relativistic quantum mechanics

Leo

Ducati

Nishi

2002

J. Phys. A: Math. Gen.

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Analytic approach to the wave packet formalism in oscillation phenomena

Bernardini

Leo

2004

Phys. Rev. D

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We introduce an approximation scheme to perform an analytic study of the oscillation phenomena in a pedagogical and comprehensive way. By using Gaussian wave packets, we show that the oscillation is bounded by a time-dependent vanishing function which characterizes the slippage between the masseigenstate wave packets. We also demonstrate that the wave packet spreading represents a secondary effect which plays a significant role only in the nonrelativistic limit. In our analysis, we note the presence of a new time-dependent phase and calculate how this additional term modifies the oscillating character of the flavor conversion formula. Finally, by considering box and sine wave packets we study how the choice of different functions to describe the particle localization changes the oscillation probability.

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Stefano De Leo

Right eigenvalue equation in quaternionic quantum mechanics

Dirac spinors and flavor oscillations

Quaternionic potentials in non-relativistic quantum mechanics

Analytic approach to the wave packet formalism in oscillation phenomena

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