Exciton dynamics as a function of excitation intensity and double-pulse excitation in cyanine molecule thin films: Toward low-power optical switches

Abstract: Exciton decay dynamics can be optically controlled by changing the excitation conditions, particularly, the excitation intensity. In this study, we report how the exciton dynamics in cyanine thin films depend on the excitation intensity and sequence. The excitons in these films have two decay components, and the ratio of the population of the fast decay component to the total population depends on the excitation intensity. Conversely, sequential excitation by a second optical pulse does not alter this ratio. A… Show more

“…In the pump-probe experiment with the double-pump excitation, the pump beam was divided into Pump1 and Pump2, using a Michelson interferometer. [33][34][35][36][37] In the double-pump measurements, the chopper was in front of the interferometer. Therefore, both pump pulses were modulated at the same time.…”

Characteristics of ultrafast response induced by impulsive interference of excitons in a GaAs/AlAs multiple quantum well on a slightly strained buffer layer

“…In the pump-probe experiment with the double-pump excitation, the pump beam was divided into Pump1 and Pump2, using a Michelson interferometer. [33][34][35][36][37] In the double-pump measurements, the chopper was in front of the interferometer. Therefore, both pump pulses were modulated at the same time.…”

Characteristics of ultrafast response induced by impulsive interference of excitons in a GaAs/AlAs multiple quantum well on a slightly strained buffer layer