Ricardo E. da Silva, Jonas H. Osório, Frédéric Gérôme, Fetah Benabid, David J. Webb, Marcos A. R. Franco, Cristiano M. B. Cordeiro
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Widely tunable dual acousto-optic interferometric device based on a hollow core fiber
An all-fiber dual Mach-Zehnder interferometer (MZI) based on an acoustically
modulated hollow-core fiber (HCF) is experimentally demonstrated for the first
time. By attaching an acoustic driver in between the fixed ends of an HCF, we
fabricated two acousto-optic modulators (AOMs) with distinct driver positions,
allowing for synchronizing two in-line MZIs inside the HCF. The first MZI is
set by two acoustic long-period gratings separated by a second MZI formed at
the fiber and driver attaching region. We show that this setup enables
frequency-tuning of the coupling between the fundamental and higher-order modes
in the HCF. Additionally, we simulate and analyze the HCF modal couplings and
MZIs' modulated spectra under distinct device parameters using the transfer
matrix method. The new AOM-MZI enables tuning of the MZIs free spectral range
by adjusting 1 Hz of the electrical frequency, which is promising to modulate
multiwavelength filters, sensors and fiber lasers.
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