Fiber-optic Michelson interferometer using an optical power divider

Abstract In this work, a fiber-optic fluoride-ion-detection Michelson interferometer based on the thin-core fiber (TCF) and no-core fiber (NCF) coated with α-Fe2O3/ZrO2 sensing film is proposed and presented. The single-mode fiber (SMF) is spliced with the TCF and NCF in turn, and a waist-enlarged taper is spliced between them. Then, a silver film is plated on the end face of NCF to enhance the reflection. After the absorption of fluoride ion by the sensing film, the effective refractive index (RI) of the coated cladding will change, which leads to the regular red shift of the interference dip with the increasing fluoride-ion concentration. Thus, the fluoride-ion concentrations can be determined according to the corresponding dip wavelength shifts. The results show that the sensor has an excellent linear response (R 2 = 0.995) with good sensitivity (8.970 nm/ppm) when the fluoride-ion concentration is in the range of 0–1.5 ppm. The response time is about 15 s. The sensor has the advantage of good selectivity, good temperature and pH stabilities, and can be applied to detect fluoride ion effectively.

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Corrosion Analysis of a Fiber-Optic Transceiver Housing

10.1115/imece2001/epp-24721 ◽

2001 ◽

Author(s):

J. H. Lau ◽

C. L. Jiaa ◽

S. J. Erasmus

Keyword(s):

Relative Humidity ◽

Corrosion Rate ◽

Cross Sections ◽

Weight Change ◽

Fiber Optic ◽

Die Casting ◽

Extinction Ratio ◽

Optical Power ◽

Zinc Alloy

Abstract The corrosion responses of a fiber-optic transceiver’s housing with zinc alloy die casting material are investigated in this study. Emphasis is placed on the determination of the weight change and corrosion rate of the housing when it is subjected to a 85% relative humidity and 85°C temperature (85%RH/85°C) test condition. Also, the average light optical power, receiver sensitivity, extinction ratio, and mask margin of transceiver modules subjected to 85%RH/85°C and 3.47V at 500, 1000, 1500, and 1600 hours are provided. Furthermore, metallography is performed on the surfaces and cross sections of the housing. Finally, measurements are made of the thickness of the oxide layer on the surfaces of the fiber-optic transceiver housing.

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Time-division optical power divider using electrooptic light switches

Journal of Lightwave Technology ◽

10.1109/jlt.1986.1074688 ◽

1986 ◽

Vol 4 (2) ◽

pp. 169-175 ◽

Cited By ~ 1

Author(s):

K. Takizawa ◽

M. Okada

Keyword(s):

Optical Power ◽

Power Divider ◽

Time Division

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Adaptive Noise Cancellation of an Analog Fiber Optic Link

10.32920/ryerson.14652360 ◽

2021 ◽

Author(s):

Mohammad Nazrul Islam

Keyword(s):

Optical Fiber ◽

Fiber Optic ◽

Signal To Noise Ratio ◽

Optical Power ◽

Noise Cancellation ◽

Adaptive Noise Cancellation ◽

Fiber Link ◽

The Mean ◽

Simulation Results ◽

Adaptive Noise

There are three dominant noise mechanisms in an analog optical fiber link. These are shot noise that is proportional to the mean optical power, relative intensity noise (RIN) that is proportional to the square of the instanteaneous optical power. This report describes an adaptive noise cancellation of these dominant noise processes that persist an analog optical fiber link. The performance of an analog optical fiber link is analyzed by taking the effects of these noise processes. Analytical and simulation results show that some improvement in signal to noise ratio (SNR) and this filter is effective to remove noise adaptively from the optical fiber link.

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Fiber Optic and Free Space Michelson Interferometer — Principle and Practice

Optical Sensors - New Developments and Practical Applications ◽

10.5772/57149 ◽

2014 ◽

Author(s):

Michal Lucki ◽

Leos Bohac ◽

Richard Zeleny

Keyword(s):

Free Space ◽

Fiber Optic ◽

Michelson Interferometer

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Macrobending Loss Analysis on Singlemode-Multimode-Singlemode Fiber Optic Core

Jurnal Jartel Jurnal Jaringan Telekomunikasi ◽

10.33795/jartel.v9i2.169 ◽

2019 ◽

Vol 9 (2) ◽

pp. 11-15

Author(s):

Sisca Arisya Harry Andhina

Keyword(s):

Light Source ◽

Optical Fibers ◽

Fiber Optic ◽

Optical Power ◽

Single Mode ◽

Fiber Optic Cable ◽

Power Meter ◽

Loss Analysis ◽

Measurement Results ◽

Source Test

Macrobending often occurs in optical fibers that embedded in the ground due to shifting of soil or rocks in the ground causing interference in transmission. In this study used single-mode-multimode-singlemode fiber optic cable connected manually and axially measured using a light source test equipment and optical power meter and the results will be compared. The measurement results obtained the greater value of macrobending losses with the smaller the diameter of the winding, and the greater the number of turns. The highest value of macrobending losses in multimode cables is -1.48dB at 0.5cm diameter with 5 turns, highest value of macrobending losses on single mode cables is -12.73dB at 0.5cm diameter with 5 turns, lowest value of macrobending losses for multimode cables is -0.44dB at 5cm diameter with 1 twist, lowest macrobending losses in singlemode cables is -1.69dB at 5cm diameter with 1 twist. While the value of macrobending losses on axially connected SMS cables shows the highest value of macrobending losses on multimode cables is -1.12dB in diameter of 0.5cm with 5 turns, highest value of macrobending losses on singlemode cables is -1.18dB at diameter of 0.5cm with 5 turns, lowest value for macrobending losses on multimode cables is -0.66dB at 5cm in diameter with 1 twist, the smallest value for macrobending losses on singlemode cables is -0.27dB at 5cm diameter with 1 twist . The measurement results also showed that the macrobending losses of manually connected SMS cables were greater than the macrobending losses of axially connected SMS cables.

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Fiber optic flow velocity sensor based on an in-fiber integrated Michelson interferometer

10.1117/12.785216 ◽

2008 ◽

Author(s):

Libo Yuan ◽

Jun Yang ◽

Zhihai Liu

Keyword(s):

Flow Velocity ◽

Optic Flow ◽

Fiber Optic ◽

Michelson Interferometer ◽

Velocity Sensor

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The effect of waveguide parameters on gan based S-bend Y-junction optical power divider

2017 15th International Conference on Quality in Research (QiR) : International Symposium on Electrical and Computer Engineering ◽

10.1109/qir.2017.8168510 ◽

2017 ◽

Author(s):

Retno Wigajatri Purnamaningsih ◽

N R Poespawati ◽

Tomy Abuzairi ◽

Sasono Rahardjo ◽

Maratul Hamidah ◽

...

Keyword(s):

Optical Power ◽

Power Divider

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1×6 Compound-Driven Optical MEMS Device for Multifunctional Fiber Optic Communication

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.712-715.2210 ◽

2013 ◽

Vol 712-715 ◽

pp. 2210-2215

Author(s):

Ying Jun Chen ◽

Yan Mei Li ◽

Qing Hua Chen ◽

Wen Gang Wu

Keyword(s):

Optical Fiber ◽

Insertion Loss ◽

Fiber Optic ◽

Optical Switch ◽

Optical Power ◽

Electrostatic Actuator ◽

Optical Mems ◽

Fiber Optic Communication ◽

Mems Device ◽

Optic Communication

A 1×6 compound-driven MEMS-based optical device with optical switch and variable optical power attenuating functions has been proposed to optimally serve multifunctional optical fiber-based networking applications. The device manipulates the light with binary-slope mirrors driven by compound electrostatic actuator. The optical models for attenuating are investigated. Performances of the fabricated devices assembled with ball-lensed fibers are measured and discussed. Measurements reveal that the insertion loss of the device is less than 2.7 dB and the controllable attenuation range is more than 40 dB for the switching and attenuation function, respectively.

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