AI Article Synopsis
- Thin GaP films are grown on a Si(0 0 1) substrate, showing nearly perfect lattice matching, allowing for effective study of ultrafast electron-phonon coupling.
- All-optical pump-probe measurements reveal that above-bandgap excitation creates coherent longitudinal optical and acoustic phonons in both GaP and Si layers.
- The strength and characteristics of acoustic pulses vary with GaP thickness, indicating potential applications for these heterostructures as opto-acoustic transducers.
Article Abstract
Thin GaP films can be grown on an exact Si(0 0 1) substrate with nearly perfect lattice match. We perform all-optical pump-probe measurements to investigate the ultrafast electron-phonon coupling at the buried interface of GaP/Si. Above-bandgap excitation with a femtosecond laser pulse can induce coherent longitudinal optical (LO) phonons both in the GaP overlayer and in the Si substrate. The coupling of the GaP LO phonons with photoexcited plasma is reduced significantly with decreasing GaP layer thickness from 56 to 16 nm due to the quasi-two-dimensional confinement of the plasma. The same laser pulse can also generate coherent longitudinal acoustic phonons in the form of a strain pulse. The strain pulse induces not only a periodic modulation in the optical reflectivity as it propagates in the semiconductor, but also a sharp spike when it arrives at the GaP layer boundary. The acoustic pulse induced at the GaP/Si interface is remarkably stronger than that at the Si surface, suggesting a possible application of the GaP/Si heterostructure as an opto-acoustic transducer. The amplitude and the phase of the reflectivity modulation varies with the GaP layer thickness, which can be understood in terms of the interference caused by the multiple acoustic pulses generated at the top surface and at the buried interface.
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| http://dx.doi.org/10.1088/1361-648X/aaf84d | DOI Listing |
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