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Topic: Supersymmetry breaking scale

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	Quantum mechanics - Wikipedia, the free encyclopedia
		Quantum mechanics is a more fundamental theory than Newtonian mechanics and classical electromagnetism, in the sense that it provides accurate and precise descriptions for many phenomena that these "classical" theories simply cannot explain on the atomic and subatomic level.
		It is necessary to use quantum mechanics to understand the behavior of systems at atomic length scales and smaller.
		Much of modern technology operates at a scale where quantum effects are significant.
	en.wikipedia.org /wiki/Quantum_Mechanics (5460 words)

	ScienceDaily: Physics (Site not responding. Last check: 2007-10-26)
		[1] Physicists study a wide range of physical phenomena spanning all length scales: from the subatomic particles from which all ordinary (i.e., baryonic) matter is made (particle physics) to the behavior of the material Universe as a whole (cosmology).
		During the 1920s Erwin Schrödinger, Werner Heisenberg, and Max Born were able to formulate a consistent picture of the chemical behavior of matter, a complete theory of the electronic structure of the atom, as a byproduct of the quantum theory.
		General relativity describes the universe on the scale of planets and solar systems while quantum mechanics operates on sub-atomic scales.
	www.sciencedaily.com /encyclopedia/physics (5015 words)

	Quantum mechanics - Biocrawler (Site not responding. Last check: 2007-10-26)
		It is believed to be a more fundamental theory than Newtonian mechanics, because it provides accurate and precise descriptions for many phenomena where Newtonian mechanics drastically fails.
		This includes the behavior of systems at atomic length scales and below — in fact, Newtonian mechanics is unable to account for the existence of stable atoms — as well as special macroscopic systems such as superconductors and superfluids.
		The predictions of quantum mechanics have never been disproven after a century's worth of experiments.
	www.biocrawler.com /encyclopedia/Quantum_mechanics (4246 words)

	Supersymmetry
		SUSY 2003: Supersymmetry in the Desert, held at the University of Arizona,Tucson, AZ, June 5-10, 2003.
		SUSY02, 10th International Conference on Supersymmetry and Unification of Fundamental Interactions, June 17-23, 2002, DESY Hamburg.
		SUSY 2005: 13th International Conference on Supersymmetry and Unification of Fundamental Interactions...,' Durham, England, July 18-23, 2005.
	www.nu.to.infn.it /SUSY (1600 words)

	Larry Abbott
		Golowasch, J., Abbott, L.F. and Marder, E. (1999) Activity-Dependent Regulation of Ionic Conductances in an Identified Neuron of the Stomatogastric Ganglion of the Crab Cancer borealis.
		Abbott, L.F. and Schnitzer, H.J. (1977) Possible Supersymmetry Breaking by Pseudoparticles.
		Abbott, L.F., Berger, E.L., Blankenbecler, R. and Kane, G.L. (1979) Diquark Contributions to Scaling Violations and to sL/sT. Phys.
	www.neurotheory.columbia.edu /~larry (3861 words)

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