D<inf>2</inf>⁺ Molecular complex in non-uniform height quantum ribbon under crossed electric and magnetic fields

Abstract:

The D2+ molecular complex fundamental properties in a uniform and multi-hilled semiconductor quantum ribbon under orthogonal electric and magnetic fields are theoretically studied. The energy structure is calculated by using adiabatic approximation combined with diagonalization procedure. The D2+ energy structure is more strongly controlled by the geometrical structural hills than the Coulomb interaction. The formation of vibrational and rotational states is discussed. Aharanov-Bohm oscillation patterns linked to rotational states as well as the D2+ molecular complex stability are highly sensitive to the number of hills while electric field breaks the electron rotational symmetry and removes the energy degeneration between low-lying states.

Año de publicación:

2018

Keywords:

• Quantum ribbon
• Non-uniform height
• Equilibrium distance
• Dissociation energy
• Coupled donors
• Molecular complex
• Aharonov-Bohmoscillations

Fuente:

scopus