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... investigations of prton spin. In general, why do quantum particles exhibit the quality of spin at all? … we do not understand where it (spin) comes from or why it is there” ...
... investigations of prton spin. In general, why do quantum particles exhibit the quality of spin at all? … we do not understand where it (spin) comes from or why it is there” ...
Fractionally charged impurity states of a fractional quantum Hall system
... of finite-sized systems [20], including the present one. These non-Laughlin-quasi-particles, if present, could also be bound to an impurity potential. A signature of this would be a bound-state spectral weight that approaches unity. For the largest system sizes studied in the present work, we do fin ...
... of finite-sized systems [20], including the present one. These non-Laughlin-quasi-particles, if present, could also be bound to an impurity potential. A signature of this would be a bound-state spectral weight that approaches unity. For the largest system sizes studied in the present work, we do fin ...
... exclusive rights of the proposer. The theory created to establish the existence of Subneutrons uses mathematical symbols, but its inaccuracies, and inconsistencies, prevent us from any serious critique of it. In particular, monographs about the Subneutrons do not suggest an elementary model for the ...
Peer-reviewed Article PDF
... Young’s famous “double-slit experiment” provided convincing evidence that light does have properties explainable only in terms of waves [22], and the diffraction of ripples through a single and two narrow openings [32, 22], was the base behind Huygen’s principle of diffraction, explained in connecti ...
... Young’s famous “double-slit experiment” provided convincing evidence that light does have properties explainable only in terms of waves [22], and the diffraction of ripples through a single and two narrow openings [32, 22], was the base behind Huygen’s principle of diffraction, explained in connecti ...
The Proton Radius Puzzle
... photons coming out the equators will collide. So we have not just a meeting of particles, we have a meeting of charge fields. The mainstream completely ignores that, and has for 150 years. Because they have never assigned the charge field to a real field of real particles, they leave the charge fiel ...
... photons coming out the equators will collide. So we have not just a meeting of particles, we have a meeting of charge fields. The mainstream completely ignores that, and has for 150 years. Because they have never assigned the charge field to a real field of real particles, they leave the charge fiel ...
1. Introduction Nanomaterials: Generally, nanomaterials are defined
... area can make materials more reactive – grains of salt dissolve in water much more quickly than a rock of salt for example. In fact, some materials that are generally inactive in their larger form can be more reactive in nanoscale. Secondly, when we look at materials on a nanoscale level, the relati ...
... area can make materials more reactive – grains of salt dissolve in water much more quickly than a rock of salt for example. In fact, some materials that are generally inactive in their larger form can be more reactive in nanoscale. Secondly, when we look at materials on a nanoscale level, the relati ...
Theory of the Diffusion of Hydrogen in Metals
... Hydrogen in metals has a large mobility. At room temperature and below, its mobility is many orders of magnitude larger than that of other interstitially dissolved atoms, as has been pointed out in Chapter 12. The question arises of why the mobility of hydrogen is so large. Is the interaction betwee ...
... Hydrogen in metals has a large mobility. At room temperature and below, its mobility is many orders of magnitude larger than that of other interstitially dissolved atoms, as has been pointed out in Chapter 12. The question arises of why the mobility of hydrogen is so large. Is the interaction betwee ...
PARTICLE PHYSICS - STFC home | Science & Technology
... The photon and the gluon are both massless. Why are the W and Z bosons not massless also? Ans: the W and Z bosons get their masses in the theory via their interaction with the Higgs field!!! ...
... The photon and the gluon are both massless. Why are the W and Z bosons not massless also? Ans: the W and Z bosons get their masses in the theory via their interaction with the Higgs field!!! ...
Making the universe safe for historians: Time travel and the laws of
... negative mass-energy is impossible. But if the bare masses of elementary particles are large, finite and negative, as is suggested by a heuristic general relativistic model of elementary particles, then, 'using the transient effect, it is technically feasible to trigger a nonlinear process that may ...
... negative mass-energy is impossible. But if the bare masses of elementary particles are large, finite and negative, as is suggested by a heuristic general relativistic model of elementary particles, then, 'using the transient effect, it is technically feasible to trigger a nonlinear process that may ...