Screw dislocation breaks symmetry between angular momentum states in a GaAs quantum wire, producing redshift and amplitude suppression for the m=0 to +1 optical transition but blueshift and enhancement for m=0 to -1, with temperature, pressure, and magnetic field modulating the peaks asymmetrically.
Turker Tuzemen, H
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Optical Response of a screw dislocated GaAs Quantum Wire: Temperature and Pressure Effects
Screw dislocation breaks symmetry between angular momentum states in a GaAs quantum wire, producing redshift and amplitude suppression for the m=0 to +1 optical transition but blueshift and enhancement for m=0 to -1, with temperature, pressure, and magnetic field modulating the peaks asymmetrically.