Optoelectrical nanomechanical resonators made from multilayered 2D materials

Esmenda, Joshoua Condicion and Aguila, Myrron Albert Callera and Wang, Jyh-Yang and Lee, Teik-Hui and Chen, Yen-Chun and Yang, Chi-Yuan and Lin, Kung-Hsuan and Chang-Liao, Kuei-Shu and Kafanov, Sergey and Pashkin, Yuri and Chen, Chii-Dong (2021) Optoelectrical nanomechanical resonators made from multilayered 2D materials. arxiv.org.

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Abstract

Studies involving nanomechanical motion have evolved from its detection and understanding of its fundamental aspects to its promising practical utility as an integral component of hybrid systems. Nanomechanical resonators' indispensable role as transducers between optical and microwave fields in hybrid systems, such as quantum communications interface, have elevated their importance in recent years. It is therefore crucial to determine which among the family of nanomechanical resonators is more suitable for this role. Most of the studies revolve around nanomechanical resonators of ultrathin structures because of their inherently large mechanical amplitude due to their very low mass. Here, we argue that the underutilized nanomechanical resonators made from multilayered two-dimensional (2D) materials are the better fit for this role because of their comparable electrostatic tunability and larger optomechanical responsivity. To show this, we first demonstrate the electrostatic tunability of mechanical modes of a multilayered nanomechanical resonator made from graphite. We also show that the optomechanical responsivity of multilayered devices will always be superior as compared to the few-layer devices. Finally, by using the multilayered model and comparing this device with the reported ones, we find that the electrostatic tunability of devices of intermediate thickness is not significantly lower than that of ultrathin ones. Together with the practicality in terms of fabrication ease and design predictability, we contend that multilayered 2D nanomechanical resonators are the optimal choice for the electromagnetic interface in integrated quantum systems.

Item Type:
Journal Article
Journal or Publication Title:
arxiv.org
Subjects:
?? cond-mat.mes-hallphysics.app-ph ??
ID Code:
165789
Deposited By:
Deposited On:
09 Feb 2022 15:25
Refereed?:
No
Published?:
Published
Last Modified:
11 Aug 2024 00:33