Saturday, January 07, 2006

IN Viscosity State Production is ?


Thus, a black hole can be created with such energy packed into the corresponding length scale. These mini black hole will evaporate in 10-88 seconds, losing most of its mass by Hawking radiation. It is estimated that the final burst should radiate a large number of particles in all directions with very high energies. The decay products include all the particle species in nature. The LHC could provide the first evidence for Hawking radiation from such signatures of the black holes. Figure 04a depicts the simulated decay of a black hole inside a particle detector. From the center of the accelerator pipe (black circle) emerge particles (spokes) registered by layers of detectors (concentric colored rings). The sequence from birth to death of a mini black hole with an initial mass of 10 Tev is shown schematically in Figure 04b. It is created by the collision of two energetic particles (a). The scenario suggests that it will emit gravitational and electromagnetic waves as it settles


It's always good to have some idea of the process. So what is the liquid drop?

So there are some things that make the production process a interesting one, and froma layman perspective talk about intuitions taken a leap here. So I made ealier comparsions here because of th enature of the superfluids involved heeree and how developing perspective around them provide for enviromenta cosniderations dealing i the substance of such collisions.

LHC cryogenic unit keeps its cool

The cryogenic system for the Large Hadron Collider (LHC) at CERN reached a major milestone on 7 April by achieving operation of the unit at Point 8 at its nominal temperature of 1.8 K. The LHC and its superconducting magnets are designed to operate at this very low temperature, making the 27 km accelerator the coldest large-scale installation in the world. Although acceptance tests performed on the surface had already reached the required temperature in 2002, this is the first time that the nominal temperature has been achieved in situ.


Yet here we are thinking about Microstate blackhole production, and we have advanced the ideas somewhat into the reality of the situation. So here in this bottle neck, and I have not seen how this works in reality, so I am guessing here by using analogies to help push my perspective forward. Some of the unique characteristics of superfluids are helping to define the process somewhat?

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