We review the particle physics ingredients affecting the normalization, shape, and flavor
composition of astrophysical neutrinos fluxes, such as different production modes, magnetic …

The IceCube Collaboration has recently announced the discovery of ultrahigh energy
neutrino events. These neutrinos can be used to probe their production source, as well as …

In this paper, we study the implications of the Dark Large Mixing Angle (DLMA) solutions of θ
12 in the context of the IceCube data. We study the consequences in the measurement of …

In the internal shock model of gamma ray bursts ultrahigh energy muons, pions, neutrons
and kaons are likely to be produced in the interactions of shock accelerated relativistic …

The observation of high-energy extraterrestrial neutrinos at IceCube represents the
beginning of the era of neutrino astronomy. In this paper, we study the cosmic neutrino flavor …

Neutrinos are neutral, spin-$\frac {1}{2} $ particles which undergo only weak interactions.
The experimentally observed phenomenon of neutrino oscillation establishes the fact that …

本論文研究來自伽瑪射線爆的微中子其流量以及味組成, 首先考慮典型的伽瑪射線爆.
其次計算不同磁場大小對微中子流量以及味組成的影響, 並探討流量以及味分布以及與不同光學 …

I. 1 Histories of Neutrinos The history of neutrinos, the knowledge of cosmic neutrinos and
the discovery of neutrino properties, is a proud one for both theoretical and experimental …

The nondetection of neutrinos coming from Gamma Ray Bursts (GRBs) by the IceCube
experiment has raised serious questions on our understanding of GRB's and the mechanism …

In the internal shock model of gamma ray bursts ultrahigh energy pions, kaons and neutrons
are likely to be produced in the interactions of shock accelerated relativistic protons with low …