Spatially structured optical effects in semiconductor quantum dots via biexciton coherence

Abstract: In this paper, we study the spatially structured optical effects that occur when weak laser lights interact with coherently prepared semiconductor quantum dots (SQDs). Initially, the SQD is prepared in a coherent superposition of the lower exciton states. By utilizing two weak optical vortex fields that couple to a biexciton state, we observe spatially dependent effects of the absorption of probe fields. Using the well-established Maxwell–Bloch equations, we analyze the generation of composite optical vortex b… Show more

“…Furthermore, EIT has enabled the realization of lasing without the need for population inversion, a concept once considered implausible [7,8]. Such breakthroughs have paved the way for enhanced nonlinear optical processes [9][10][11], the propagation of laser pulse pairs in soliton fashion [12,13], and others [14][15][16][17][18]. The central concept behind parametric pulse generation hinges on the principles of quantum interference.…”

Coherent control of parametric generation of laser beams via intersubband transitions in quantum wells

“…Furthermore, EIT has enabled the realization of lasing without the need for population inversion, a concept once considered implausible [7,8]. Such breakthroughs have paved the way for enhanced nonlinear optical processes [9][10][11], the propagation of laser pulse pairs in soliton fashion [12,13], and others [14][15][16][17][18]. The central concept behind parametric pulse generation hinges on the principles of quantum interference.…”

Coherent control of parametric generation of laser beams via intersubband transitions in quantum wells