Saved in:
Bibliographic Details
Main Authors: Mittmann, Maarten, Habenicht, Carsten, Bornitz, Matthias, Sen, Indraneel, Kleemann, Hans, Leo, Karl
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.01667
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866910628946378752
author Mittmann, Maarten
Habenicht, Carsten
Bornitz, Matthias
Sen, Indraneel
Kleemann, Hans
Leo, Karl
author_facet Mittmann, Maarten
Habenicht, Carsten
Bornitz, Matthias
Sen, Indraneel
Kleemann, Hans
Leo, Karl
contents Recording and analyzing infrasound signals is essential to study natural phenomena, such as earthquakes, weather, or avalanches, but also has practical importance in aviation industry, optimization of wind turbines, and many more. However, the detection of faint infrasound signals is still a significant challenge as the transducers (e.g., mechanical, optical, and piezoelectric) are either difficult to integrate or do not provide sufficient sensitivity. Here, we propose an alternative principle to detecting infrasound, which is based on a free-standing liquid film covered with a polymeric organic mixed ionic-electronic conductor (OMIEC). This polymer is capable of conducting ions, as well as electrons/holes and serves as a direct electronic infrasound transducer due to the sensitivity of OMIECs to the local ion concentration in the liquid. We specifically address the detection of acoustic excitations within the infrasound regime and the dependency of the networks reaction to these stimuli on its conductive properties, mainly its impedance spectrum. The resulting sensor has a sensitivity of 613 muV Pa-1 and a power consumption of about 340 nW at 100 mHz, which puts these systems well within the range of commercial infrasound detectors, while offering significant advantages in terms of device complexity and integration.
format Preprint
id arxiv_https___arxiv_org_abs_2410_01667
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Infrasound Detection Using Polymer Networks in Liquid Films
Mittmann, Maarten
Habenicht, Carsten
Bornitz, Matthias
Sen, Indraneel
Kleemann, Hans
Leo, Karl
Applied Physics
Recording and analyzing infrasound signals is essential to study natural phenomena, such as earthquakes, weather, or avalanches, but also has practical importance in aviation industry, optimization of wind turbines, and many more. However, the detection of faint infrasound signals is still a significant challenge as the transducers (e.g., mechanical, optical, and piezoelectric) are either difficult to integrate or do not provide sufficient sensitivity. Here, we propose an alternative principle to detecting infrasound, which is based on a free-standing liquid film covered with a polymeric organic mixed ionic-electronic conductor (OMIEC). This polymer is capable of conducting ions, as well as electrons/holes and serves as a direct electronic infrasound transducer due to the sensitivity of OMIECs to the local ion concentration in the liquid. We specifically address the detection of acoustic excitations within the infrasound regime and the dependency of the networks reaction to these stimuli on its conductive properties, mainly its impedance spectrum. The resulting sensor has a sensitivity of 613 muV Pa-1 and a power consumption of about 340 nW at 100 mHz, which puts these systems well within the range of commercial infrasound detectors, while offering significant advantages in terms of device complexity and integration.
title Infrasound Detection Using Polymer Networks in Liquid Films
topic Applied Physics
url https://arxiv.org/abs/2410.01667