This preprint series explores the mechanical basis of quantum localization and intrinsic length scales in electrons. Using a variational continuum framework, the electron is modeled as an extended, gradient-stiff entity coupled to its environment, revealing how the Compton wavelength and Bohr radius emerge naturally from internal mechanical consistency. The work also reinterprets the Heisenberg uncertainty principle as a structural consequence of localization costs. This series establishes a baseline for extended electron structures and identifies where additional physical structure is necessary to reconcile stability with motion.
Ping Zhang (Sun,) studied this question.
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