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An addressed fiber Bragg structure (AFBS) is a
fiber Bragg grating A fiber Bragg grating (FBG) is a type of distributed Bragg reflector constructed in a short segment of optical fiber that reflects particular wavelengths of light and transmits all others. This is achieved by creating a periodic variation in th ...
, the
optical Optics is the branch of physics that studies the behaviour and properties of light, including its interactions with matter and the construction of instruments that use or detect it. Optics usually describes the behaviour of visible, ultraviole ...
frequency response In signal processing and electronics, the frequency response of a system is the quantitative measure of the magnitude and phase of the output as a function of input frequency. The frequency response is widely used in the design and analysis of sy ...
of which includes two narrowband components with the frequency spacing between them (which is the address frequency of the AFBS) being in the radio frequency (RF) range. The frequency spacing (the address frequency) is unique for every AFBS in the interrogation circuit and does not change when the AFBS is subjected to
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or
temperature Temperature is a physical quantity that expresses quantitatively the perceptions of hotness and coldness. Temperature is measured with a thermometer. Thermometers are calibrated in various temperature scales that historically have relied o ...
variation. An addressed fiber Bragg structure can perform triple function in
fiber-optic sensor A fiber-optic sensor is a sensor that uses optical fiber either as the sensing element ("intrinsic sensors"), or as a means of relaying signals from a remote sensor to the electronics that process the signals ("extrinsic sensors"). Fibers have m ...
systems: a
sensor A sensor is a device that produces an output signal for the purpose of sensing a physical phenomenon. In the broadest definition, a sensor is a device, module, machine, or subsystem that detects events or changes in its environment and sends ...
, a shaper of double-frequency probing radiation, and a multiplexor. The key feature of AFBS is that it enables the definition of its central wavelength without scanning its spectral response, as opposed to conventional fiber Bragg gratings (FBG), which are probed using optoelectronic interrogators. An interrogation circuit of AFBS is significantly simplified in comparison with conventional interrogators and consists of a broadband optical source (such as a
superluminescent diode A superluminescent diode (SLED or SLD) is an edge-emitting semiconductor light source based on superluminescence. It combines the high power and brightness of laser diodes with the low coherence of conventional light-emitting diodes. Its emission ...
), an optical filter with a predefined linear inclined frequency response, and a
photodetector Photodetectors, also called photosensors, are sensors of light or other electromagnetic radiation. There is a wide variety of photodetectors which may be classified by mechanism of detection, such as Photoelectric effect, photoelectric or photoc ...
. The AFBS interrogation principle intrinsically allows to include several AFBSs with the same central wavelength and different address frequencies into a single measurement system.


History

The concept of addressed fiber Bragg structures was introduced in 2018 by Airat SakhabutdinovSakhabutdinov A.J. Microwave-Photonic Sensor Systems Based on Address Fiber Bragg Structures and their Application for Solving Practical Problems. D.Sc. Thesis. Kazan: Kazan National Research Technical University named after A.N. Tupolev-KAI Publ., 2018. (in Russian) and developed in collaboration with his scientific adviser, Oleg Morozov. The idea emerged from the earlier works of Morozov and his colleagues,Morozov O.G. Symmetrical double-frequency reflectometry for the monitoring of natural and artificial media. D.Sc. Thesis. Kazan, 2004. 333 p. (in Russian) where the double-frequency optical radiation from an
electro-optic modulator An electro-optic modulator (EOM) is an optical device in which a signal-controlled element exhibiting an electro-optic effect is used to modulate a beam of light. The modulation may be imposed on the phase, frequency, amplitude, or polarization ...
was used for the definition of the FBG central wavelength based on the amplitude and phase analysis of the beating signal at the frequency equal to the spacing between the two components of the probing radiation. This eliminates the need for scanning the FBG spectral response while providing high accuracy of measurements and reducing the system cost. AFBS has been developed as a further step towards simplification of FBG interrogation systems by transferring the shaping of double-frequency probing radiation from the source modulator to the sensor itself.


Types of AFBS

Thus far, two types of AFBS with different mechanisms of forming double-frequency radiation have been presented: 2π-FBG and 2λ-FBG.


2π-FBG

A 2π-FBG is an FBG with two discrete phase π-shifts. It comprises three sequential uniform FBGs with gaps equal to one grating period between them (see Fig. 1). In the system, several 2π-FBGs must be connected in parallel so that the photodetector receives the light propagated through the structures.


2λ-FBG

A 2λ-FBG consists of two identical ultra-narrow FBGs, the central wavelengths of which are separated by an address frequency. Several 2λ-FBGs in the system can be connected in series, so that the photodetector receives the light reflected from the structures.


Interrogation principle

Fig. 2 presents the block diagram of the interrogation system for two AFBSs (2π-FBG-type) with different address frequencies Ω1 and Ω2. A broadband light source 1 generates continuous light radiation (diagram a), which corresponds to the measurement bandwidth. The light is transmitted through the fiber-optic coupler 9, then enters the two AFBSs 2.1 and 2.2. Both AFBSs transmit two-frequency radiations that are summed into a combined radiation (diagram b) using another coupler 10. At the output of the coupler, a four-frequency radiation (diagram c) is formed, which is sent through a
fiber-optic splitter A fiber-optic splitter, also known as a beam splitter, is based on a quartz substrate of an integrated waveguide optical power distribution device, similar to a coaxial cable transmission system. The optical network system uses an optical sig ...
6. The splitter divides the optical signal into two channels – the measuring channel and the reference channel. In the measuring channel, an optical filter 3 with a pre-defined linear inclined frequency response is installed, which modifies the amplitudes of the four-frequency radiation into the asymmetrical radiation (diagram d). After that, the signal is sent to the photodetector 4 and is received by the measuring analog-to-digital converter (ADC) 5. The signal from the ADC is used to define the measurement information from the AFBS. In the reference channel, the signal (diagram e) is sent to the reference photodetector 7 for the optical power output control, and then it is received by the reference ADC 8. Thus, the normalization of output signal intensity is achieved, and all subsequent calculations are performed using the relations of the intensities in the measuring and reference channels. Assume that the response from each spectral components of AFBSs is represented by a single harmonic, then the total optical response from the two AFBSs can be expressed as: :F(t)=\left
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2, where ''Ai'', ''Bi'' are the amplitudes of the frequency components of the ''i''-th AFBS; ω''i'', is the frequency of the left spectral components of the ''i''-th AFBS; Ω''i'' is the address frequency of the ''i''-th AFBS. The luminous power received by the photodetector can be described by the following expression: :P(t)=\sum_^N\sum_^N\left(\right). By narrowband filtering of the signal ''P''(''t'') at the address frequencies, a system of equations can be obtained, using which the central frequencies of the AFBSs can be defined: :\sum_^N\sum_^N\left(\right)=D_j, j=\overline, where ''Dj'' is the amplitude of the signal at the address frequencies Ω''j'', and the exponential multipliers describe the bandpass filters at the address frequencies.


References

{{Reflist Optical fiber Fiber optics Diffraction Sensors