Types | 8 |
Mass | 0 |
Mean lifetime | - |
Electric charge | 0 |
Color charge | Octet |
Spin | 1 |
Parity | - |
C Parity | - |
Showing posts with label Boson. Show all posts
Showing posts with label Boson. Show all posts
Wednesday, November 7, 2012
Simulation of a binary boson star merger
Author: Frans Pretorius, Department of Physics, Princeton University, specialist in numerical solution of the field equations of Einstein for gravity. The non-linearity and complexity of Einstein's equations make it challenging to solve even numerically, and some portion of his time is spent designing algorithms to efficiently solve the equations in parallel on large computer clusters, and software to manipulate and visualize the simulation results.
The video shows a binary boson star merger. Technically a boson star is a spherically symmetric static solutions of Einsteins field equation coupled to a scalar field (when they are free of singularities, otherwise they are black holes). Until today there is no observational evidence for the existence of a boson star. In fact, they are made of scalar elementary particles, and none has been discovered yet. Boson stars are hypothetical candidates for supermassive objects at the center of galaxies. In fact, for the supermassive object at the center of our own galaxy, evidence points towards a black hole, but the possibility that it is a boson or fermion star cannot be completely excluded so far.
ラベル:
Boson
Quantum Mechanics (Chapter 5 of 6)
Once you get past existence coming and going... and virtual particles... and uncertainty... and exclusion, then you are ready to enjoy the REALLY weird stuff in the quantum world.
9-Yr-Old Prodigy Explains "God Particle"
Child PRODIGY Tanishq Abraham joins us in this Google+ Hangout to explain the exciting July 4th discovery of the Higgs Boson particle
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