Adamah

Arnold, Ben; Heider, Werner; Knaupp, W.; Imbrie, Andrew; Ledoux, Claude Nicolas; Leon, Tania

doi:10.2307/941551

Cited by 2 publications

(2 citation statements)

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“…The possibility is also opened up of of generating the BAU by electroweak reprocessing of an earlier lepton asymmetry, as proposed by Fukugita and Yanagida [7] in the context of the neutrino mass see-saw. On the other hand, should BAU generation at the electroweak phase transition not occur, the disquieting prospect arises that any previously-produced BAU would be erased [6], if it were not protected by a B-L asymmetry.…”

mentioning

confidence: 99%

On the baryon, lepton-flavour and right-handed electron asymmetries of the universe

et al. 1992

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Non-perturbative electroweak effects, in thermal equilibrium in the early universe, have the potential to erase the baryon asymmetry of the universe, unless it is encoded in a B-L asymmetry, or in some "accidentally" conserved quantity. We first consider the possibility that the BAU may be regenerated from lepton flavour asymmetries even when initially B − L = 0. We show that provided some, but not all the lepton flavours are violated by ∆L =0 interactions in equilibrium, the BAU may be regenerated without lepton mass effects. We next examine the possibility of encoding the baryon asymmetry in a primordial asymmetry for the right-handed electron, which due to its weak Yukawa interaction only comes into chemical equilibrium as the sphalerons are falling out of equilibrium. This would also raise the possibility of preserving an initial baryon asymmetry when B − L = 0.Published In: Phys.Lett. B297 (1992) 118.

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confidence: 99%

On the baryon, lepton-flavour and right-handed electron asymmetries of the universe

et al. 1992

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“…Numerical experiments show that, for e ′ > 0, at least two different mechanisms of diffusion are present. Along non-overlapping resonances, a slow (and practically undetectable) Arnold-like diffusion (Arnold, 1964) takes place. On the other hand, for initial conditions along partly overlapping resonances, due to the phenomenon of pulsating separatrices (P&E14), we observe a faster 'modulational' diffusion (Chirikov et al, 1985) leading to relatively fast escapes.…”

Section: Diffusion and Stabilitymentioning

confidence: 99%

Modeling Trojan dynamics: diffusion mechanisms through resonances

Paez

Efthymiopoulos²

2014

Proc. IAU

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In the framework of the ERTBP, we study an example of the influence of secondary resonances over the long term stability of Trojan motions. By the integration of ensembles of orbits, we find various types of chaotic diffusion, slow and fast. We show that the distribution of escape times is bi-modular, corresponding to two populations of short and long escape times. The objects with long escape times produce a power-law tail in the distribution.Comment: Published on Complex Planetary Systems, Proceedings of the International Astronomical Union, IAU Symposium, Volume 310, pp. 96-9

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Adamah

Cited by 2 publications

References 0 publications

On the baryon, lepton-flavour and right-handed electron asymmetries of the universe

On the baryon, lepton-flavour and right-handed electron asymmetries of the universe

Modeling Trojan dynamics: diffusion mechanisms through resonances

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