O. Zagordi and A. Michelangeli
abstract:
Appearance of energy bands and gaps in the
dispersion relations of a periodic potential is a standard feature
of Quantum Mechanics. We investigate the class of one-dimensional
periodic potentials for which all gaps vanish at the center of the
Brillouin zone. We characterise them through a necessary and
sufficient condition. Potentials of the form we focus on arise in
different fields of Physics, from supersymmetric Quantum
Mechanics, to Korteweg-de Vries equation theory and classical
diffusion problems. The O.D.E. counterpart to this problem is the
characterisation of periodic potentials for which coexistence
occurs of linearly independent solutions of the corresponding
Schrödinger equation (Hill's equation). This result is placed in
the perspective of the previous related results available in the
literature.
Mathematics Subject Classification: 30RD10, 30RD15, 30RD20, 34B24, 34B30, 34E05, 34L05, 34L99, 46N20, 46N50, 47N20, 47N50, 81Q10, 81V45
Key words and phrases: Schrödinger equation with periodic potential, dispersion relations, energy bands and gaps, vanishing gaps, Hill's equation, intervals of stability and instability, discriminant and characteristic values of an O.D.E., coexistence.