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Main Authors: Patel, Ranjan Kumar, Yuan, Yifan, Bisht, Ravindra Singh, Seskar, Ivan, Mandayam, Narayan, Ramanathan, Shriram
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2312.06459
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author Patel, Ranjan Kumar
Yuan, Yifan
Bisht, Ravindra Singh
Seskar, Ivan
Mandayam, Narayan
Ramanathan, Shriram
author_facet Patel, Ranjan Kumar
Yuan, Yifan
Bisht, Ravindra Singh
Seskar, Ivan
Mandayam, Narayan
Ramanathan, Shriram
contents RF radiation spectrum is central to wireless and radar systems among numerous high-frequency device technologies. Here, we demonstrate sensing of RF signals in the technologically relevant 2.4 GHz range utilizing vanadium dioxide (VO2), a quantum material that has garnered significant interest for its insulator-to-metal transition. We find the electrical resistance of both stoichiometric as well as off-stoichiometric vanadium oxide films can be modulated with RF wave exposures from a distance. The response of the materials to the RF waves can be enhanced by either increasing the power received by the sample or reducing channel separation. We report a significant ~73% drop in resistance with a 5 μm channel gap of the VO2 film at a characteristic response time of 16 microseconds. The peak sensitivity is proximal to the phase transition temperature boundary that can be engineered via doping and crystal chemistry. Dynamic sensing measurements highlight the films' rapid response and broad-spectrum sensitivity. Engineering electronic phase boundaries in correlated electron systems could offer new capabilities in emerging communication technologies.
format Preprint
id arxiv_https___arxiv_org_abs_2312_06459
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle High-speed sensing of RF signals with phase change materials
Patel, Ranjan Kumar
Yuan, Yifan
Bisht, Ravindra Singh
Seskar, Ivan
Mandayam, Narayan
Ramanathan, Shriram
Applied Physics
Strongly Correlated Electrons
RF radiation spectrum is central to wireless and radar systems among numerous high-frequency device technologies. Here, we demonstrate sensing of RF signals in the technologically relevant 2.4 GHz range utilizing vanadium dioxide (VO2), a quantum material that has garnered significant interest for its insulator-to-metal transition. We find the electrical resistance of both stoichiometric as well as off-stoichiometric vanadium oxide films can be modulated with RF wave exposures from a distance. The response of the materials to the RF waves can be enhanced by either increasing the power received by the sample or reducing channel separation. We report a significant ~73% drop in resistance with a 5 μm channel gap of the VO2 film at a characteristic response time of 16 microseconds. The peak sensitivity is proximal to the phase transition temperature boundary that can be engineered via doping and crystal chemistry. Dynamic sensing measurements highlight the films' rapid response and broad-spectrum sensitivity. Engineering electronic phase boundaries in correlated electron systems could offer new capabilities in emerging communication technologies.
title High-speed sensing of RF signals with phase change materials
topic Applied Physics
Strongly Correlated Electrons
url https://arxiv.org/abs/2312.06459