Add to ORKGThe temperature of the cosmic microwave background increases with redshift; at sufficiently high redshift it becomes possible for ultrahigh-energy photons and electrons to produce muons and pions through interactions with background photons. At the same time, energy losses due to interactions with radio background and intergalactic magnetic fields are negligible. The energetic muons and pions decay, yielding a flux of ``signature'' neutrinos with energies $E_\nu \sim 10^{17}$eV. Detection of these neutrinos can help understand the origin of ultrahigh-energy cosmic rays
We discuss the prospect of observing high energy neutrinos from the annihilation or decay of superhe...
We discuss the possibility that the PeV neutrinos recently observed by IceCube are produced by the i...
We discuss in some detail the production of extremely high energy (EHE) neutrinos with energies abov...
Muon pairs can be produced in the annihilation of ultrahigh energy (UHE, E greater than or similar t...
Muon pairs can be produced in the annihilation of ultrahigh energy (UHE, E greater than or similar t...
We study the impact of the muon pair production and double pair production processes induced by ultr...
We study the impact of the muon pair production and double pair production processes induced by ultr...
Neutrinos are the best candidates to test the extreme Universe and ideas beyond the Standard Model o...
Annihilation of high energy, $\sim 10^{21}$eV, neutrinos on big bang relic neutrinos of $\sim 1$eV m...
The production of ultrahigh energy photons, electrons and neutrinos as the decay products of pions p...
AbstractTop–down models of cosmic rays produce more neutrinos than photons and more photons than pro...
We briefly review the main channels of gamma ray and neutrino production due to the propagation of ul...
We demonstrate by numerical flux calculations that neutrino beams producing the observed highest ene...
We calculate the flux of neutrinos generated by the propagation of ultrahigh energy nuclei over cosm...
We outline the current situation in ultrahigh energy (UHE) cosmic ray physics, pointing out the rema...
We discuss the prospect of observing high energy neutrinos from the annihilation or decay of superhe...
We discuss the possibility that the PeV neutrinos recently observed by IceCube are produced by the i...
We discuss in some detail the production of extremely high energy (EHE) neutrinos with energies abov...
Muon pairs can be produced in the annihilation of ultrahigh energy (UHE, E greater than or similar t...
Muon pairs can be produced in the annihilation of ultrahigh energy (UHE, E greater than or similar t...
We study the impact of the muon pair production and double pair production processes induced by ultr...
We study the impact of the muon pair production and double pair production processes induced by ultr...
Neutrinos are the best candidates to test the extreme Universe and ideas beyond the Standard Model o...
Annihilation of high energy, $\sim 10^{21}$eV, neutrinos on big bang relic neutrinos of $\sim 1$eV m...
The production of ultrahigh energy photons, electrons and neutrinos as the decay products of pions p...
AbstractTop–down models of cosmic rays produce more neutrinos than photons and more photons than pro...
We briefly review the main channels of gamma ray and neutrino production due to the propagation of ul...
We demonstrate by numerical flux calculations that neutrino beams producing the observed highest ene...
We calculate the flux of neutrinos generated by the propagation of ultrahigh energy nuclei over cosm...
We outline the current situation in ultrahigh energy (UHE) cosmic ray physics, pointing out the rema...
We discuss the prospect of observing high energy neutrinos from the annihilation or decay of superhe...
We discuss the possibility that the PeV neutrinos recently observed by IceCube are produced by the i...
We discuss in some detail the production of extremely high energy (EHE) neutrinos with energies abov...