alpha2cen Posted August 1, 2012 Posted August 1, 2012 Which state a proton and a neutron exist in the nucleus of the deuterium ? Simply attached or another state? Are original shapes of particles maintained in the nucleus?
perspectiva8 Posted August 4, 2012 Posted August 4, 2012 What is the shape of a particle? It's density function? If so, density functions are distorted. deuterium nucleus (whose specific name, if if exists I dont know) is another frame of states different from single particles I
alpha2cen Posted August 5, 2012 Author Posted August 5, 2012 (edited) What is the shape of a particle? It's density function? If so, density functions are distorted. deuterium nucleus (whose specific name, if if exists I dont know) is another frame of states different from single particles I np --> n + P or D+--> n + P Above reaction is possible? Edited August 5, 2012 by alpha2cen
JohnStu Posted September 18, 2012 Posted September 18, 2012 Which state a proton and a neutron exist in the nucleus of the deuterium ? Simply attached or another state? Are original shapes of particles maintained in the nucleus? I had written a paper mentioning these questions. No one has been able to know.
Enthalpy Posted September 18, 2012 Posted September 18, 2012 Wouldn't for instance the deuteron's electric moment say a lot about its composition? Say, if the neutron and the proton share the charge, by exchanging an up for a down, the mean charge will be at the centre. But if the proton and the neutron are side-by-side, the electric centre will be offset from the mass centre. Even if both are delocalized to the entire nucleus, they should have different excitation states which absorb or emit a gamma during the transitions. What's the difficulty? Sorry, I understand very little about this subject. At least Wiki believes to know something about it: http://en.wikipedia.org/wiki/Deuterium#Nuclear_properties_.28the_deuteron.29 with detailed descriptions of states. But maybe Wiki doesn't describe the present knowledge, or knowledge evolves quickly in this field.
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