Scientists May Soon Have Evidence for Exotic Predictions of String Theoryissued by Northeaster University
"String theory and other possibilities can distort the relative numbers of 'down' and 'up' neutrinos," said Jonathan Feng, associate professor in the Department of Physics and Astronomy at UC Irvine. "For example, extra dimensions may cause neutrinos to create microscopic black holes, which instantly evaporate and create spectacular showers of particles in the Earth's atmosphere and in the Antarctic ice cap. This increases the number of 'down' neutrinos detected. At the same time, the creation of black holes causes 'up' neutrinos to be caught in the Earth's crust, reducing the number of 'up' neutrinos. The relative 'up' and 'down' rates provide evidence for distortions in neutrino properties that are predicted by new theories."
So what is it we can learn about high energy photons. Kip Thorne was instrumental here in helping draw us a sequence of events in our cosmos and on the cosmic particle considerations? I couldn't help identify with this process.
Of course in order to capture the effects of high energy photons we need a vast array of area in terms of detector status, that we might indeed capture them. So ICECUBE is a interesting perspective here?
Now why would I combine these two things, and it is of course through a previous conversation that the ideas of high energy particles using our atmosphere for secondary particle realizations, could have capture the human eye so that one had to turn from the brightness? Look to the image below o pulsar sources for cosnideration.
Now of course it is just being put here for a minute, while I try and get my thoughts together on this.
But in the mean time, for those who understand what I am refering too, you might leave your comment and share what you think about this similarity? What may have been happening with "the light" as the snow boarders were doing their olympics?
We see a pulsar, then, when one of its beams of radiation crosses our line-of-sight. In this way, a pulsar is like a lighthouse. The light from a lighthouse appears to be "pulsing" because it only crosses our line-of-sight once each time it spins. Similarly, a pulsar "pulses" because we see bright flashes every time the star spins.
Linked qote and picture to tutorial site has been taken down, and belongs to Barb of http://www.airynothing.com