Excitation and detection of acoustic phonons in nanoscale systems

Ryan C. Ng, Alexandros el Sachat, Francisco Céspedes Mulero, Martin Poblet, Guilhem Madiot, Juliana Jaramillo Fernández, Omar Florez, Peng Xiao, Marianna Sledzinska, Clivia M Sotomayor Torres, Emigdio Chávez Ángel

Producción científica: Contribución a una revistaArtículoInvestigaciónrevisión exhaustiva

18 Citas (Scopus)

Resumen

Phonons play a key role in the physical properties of materials, and have long been a topic of study in physics. While the effects of phonons had historically been considered to be a hindrance, modern research has shown that phonons can be exploited due to their ability to couple to other excitations and consequently affect the thermal, dielectric, and electronic properties of solid state systems, greatly motivating the engineering of phononic structures. Advances in nanofabrication have allowed for structuring and phonon confinement even down to the nanoscale, drastically changing material properties. Despite developments in fabricating such nanoscale devices, the proper manipulation and characterization of phonons continues to be challenging. However, a fundamental understanding of these processes could enable the realization of key applications in diverse fields such as topological phononics, information technologies, sensing, and quantum electrodynamics, especially when integrated with existing electronic and photonic devices. Here, we highlight seven of the available methods for the excitation and detection of acoustic phonons and vibrations in solid materials, as well as advantages, disadvantages, and additional considerations related to their application. We then provide perspectives towards open challenges in nanophononics and how the additional understanding granted by these techniques could serve to enable the next generation of phononic technological applications.
Idioma originalInglés
Páginas (desde-hasta)13428-13451
Número de páginas24
PublicaciónNanoscale
Volumen14
N.º37
DOI
EstadoPublicada - 2022

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