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Effect of PMMA and PVA coating on the performance of optical microbottle resonator humidity sensors
Author(s) -
Johari Md Ashadi Md,
Pour Meisam Parsa,
Al Noman Abdullah,
Khudus Muhammad Imran Mustafa Abdul,
Jali Mohd Hafiz Bin,
Maslinda M. S.,
Ali Ummu Umairah Mohd,
Harun Sulaiman Wadi
Publication year - 2020
Publication title -
microwave and optical technology letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.304
H-Index - 76
eISSN - 1098-2760
pISSN - 0895-2477
DOI - 10.1002/mop.32133
Subject(s) - humidity , materials science , resonator , polyvinyl alcohol , microfiber , coating , composite material , relative humidity , linearity , optoelectronics , electrical engineering , meteorology , physics , engineering
This article compares the performances of uncoated and coated optical microbottle resonators (MBR) for humidity sensing. A technique called “soften‐and‐compress” was used to form the MBR with midriff diameter of D b = 190 μm , stem diameter of D s = 125 μm and bottle length of L b = 182 μm . The MBRs were prepared in three different conditions, which are noncoated MBR, PMMA (poly methyl meth acrylate) coated MBR, and PVA (polyvinyl‐alcohol) coated MBR. The MBRs characteristic was investigated by employing a 2 μm tapered microfiber and tested for humidity sensing within a humidity range of 40% to 95%. The Q‐factor obtained were >10 4 for all MBRs. The performance as humidity sensor was defined by the sensitivity and linearity of MBRs, which were investigated based on wavelength shift and also the transmitted power. The MBRs are undergoing a 180‐seconds stability test at 65% RH humidity level. It is found that the PVA coated MBR performed better than other MBRs as a humidity sensor based on sensitivity, linearity, and stability measurements.