Phonon-Phonon Quantum Coherent Coupling in GaAs/AlAs Superlattice
Feng He, Nathanial Sheehan, Seth R Bank, Raymond L Orbach, Yaguo Wang

TL;DR
This study demonstrates quantum coherent coupling between phonons in GaAs/AlAs superlattices at room temperature, revealing multi-cycle oscillations indicative of energy exchange similar to quantum optical processes.
Contribution
First observation of phonon-phonon quantum coherent coupling in GaAs/AlAs superlattices at ambient conditions using coherent phonon spectroscopy.
Findings
Multi-cycle oscillations in phonon amplitudes indicating coherent energy exchange
Coupling strength increases nonlinearly with pump fluence
Potential to reach a state where all three phonons share the same coherent state
Abstract
Quantum coherent coupling between a zone-center phonon and two acoustic phonons was observed in two GaAs/AlAs superlattices (8 nm/8 nm and 5.4 nm/5.4 nm) at ambient temperature. Using degenerate coherent phonon spectroscopy, a multi-cycle oscillation feature appears in the time-resolved phonon amplitudes of both samples, as a result of the coherent energy exchange between a driving phonon mode near first Brillouin zone center and two target acoustic phonon modes. This feature resembles the photon resonant parametric down/up-conversion processes, as well as the reversible coherent energy exchange between the optical field and a mechanical oscillator, suggesting quantum coherent coupling between the driving and target phonon modes. In the 8 nm/8 nm superlattice, the coupling strength increases nonlinearly at high pump fluences, which may eventually reach an extreme state where all three…
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Taxonomy
TopicsSemiconductor Quantum Structures and Devices · Terahertz technology and applications
