Estados 1s-like, 2p−-like y 2p+-like de una impureza hidrogenoide en un punto cuántico cilíndrico bajo la acción de un campo magnético aplicado

Resumen

Se estudia teóricamente los estados cuánticos de un punto cuántico cilíndrico, (CDQ) de GaAs/Ga0,6Al0,4As con una impureza hidrogenoide en su interior y bajo la acción de un campo magnético uniforme, aplicado en la dirección axial del cilindro. Usando el método variacional se encontraron las energías y las funciones de onda de los estados de impureza, 1s-like, 2p−-like y 2p+-like, cuando ella se mueve dentro del CQD. Se encontró que existe degeneramiento en la energía de la impureza para los estados 2p−-like y 2p+-like en ausencia de campo magnético. Este degeneramiento se rompe solo al aplicar un campo magnético, indicando un efecto Zeeman en el sistema, asì la variación de la intensidad del campo magnético permite sintonizar la condición resonancia de dos fotones.

Palabras clave

Punto cuántico cilíndrico, impureza hidrogenoide, campo magnético.

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