scholarly journals Evanescent Field Controllable MZ Sensor via Femtosecond Laser Processing and Mechanic Polishing

Micromachines ◽  
2021 ◽  
Vol 12 (11) ◽  
pp. 1421
Author(s):  
Zong-Da Zhang ◽  
Yan-Zhao Duan ◽  
Qi Guo ◽  
Si Gao ◽  
Bing-Rong Gao
Keyword(s):  
Refractive Index ◽  
Femtosecond Laser ◽  
Optical Sensors ◽  
Light Propagation ◽  
Bulk Material ◽  
Measurement Range ◽  
Evanescent Field ◽  
Zehnder Interferometer ◽  
On Chip ◽  
Mach Zehnder Interferometer

Recently, optical sensors interacting with evanescent fields and the external environment around waveguides have attracted extensive attention. In the process of light propagation in the waveguide, the depth of the evanescent field is closely related to the accuracy of the optical sensor, and adjusting the depth of the evanescent field to obtain higher accuracy has become the primary challenge in fabricating on-chip optical sensors. In this study, the waveguide structure of a Mach–Zehnder interferometer was written directly in Corning Eagle 2000 borosilicate glass by a femtosecond laser, and the sensing window was exposed out of the bulk material by mechanical polishing. The refractive index detection device based on the proposed on-chip Mach–Zehnder interferometer has the advantages of small volume, light weight, and good stability. Its sensitivity can reach 206 nm/RIU or 337 dB/RIU, and the theoretical maximum measurement range is 1–1.508. Therefore, it can measure the refractive index quickly and accurately in extreme or complex environments, and has excellent application prospects.

scholarly journals Ultrahigh Sensitivity Mach−Zehnder Interferometer Sensor Based on a Weak One-Dimensional Field Confinement Silica Waveguide

Sensors ◽  
2021 ◽  
Vol 21 (19) ◽  
pp. 6600
Author(s):  
Chenming Zhao ◽  
Lei Xu ◽  
Liying Liu
Keyword(s):  
Refractive Index ◽  
Aspect Ratio ◽  
Limit Of Detection ◽  
Evanescent Field ◽  
Zehnder Interferometer ◽  
One Dimensional ◽  
Refractive Index Difference ◽  
Ultrahigh Sensitivity ◽  
Low Refractive Index ◽  
Mach Zehnder Interferometer

We report a novel Mach−Zehnder interferometer (MZI) sensor that utilizes a weak one-dimensional field confinement silica waveguide (WCSW). The WCSW has a large horizontal and vertical aspect ratio and low refractive index difference, which features easy preparation and a large evanescent field for achieving high waveguide sensitivity. We experimentally achieved WCSW ultrahigh waveguide sensitivity of 0.94, MZI sensitivity of 44,364 π/RIU and a low limit of detection (LOD) of 6.1 × 10−7 RIU.

Design and Development of Mach Zehnder Interferometer based Optical Sensors to Detection of Arsenic compound in Drinking Water

2018 ◽  
Vol 7 (4.38) ◽  
pp. 880
Author(s):  
Shaikh Afzal Nehal ◽  
Anindita Mukherjee ◽  
Dr. Manju Devi
Keyword(s):  
Refractive Index ◽  
Optical Sensors ◽  
Cmos Technology ◽  
Zehnder Interferometer ◽  
Arsenic Compound ◽  
Photonic Crystal Waveguide ◽  
Graded Index ◽  
Contagious Diseases ◽  
Data Graph ◽  
Mach Zehnder Interferometer

Water, the inevitable need of any individual, must be monitored. Detection of the arsenic chemical  present in water leads to contagious diseases. The legacy makes people difficult to survive. The consequences are cancer, other diseases.  Employing photonic crystal waveguide with the rally round of mach Zehnder interferometer, it is feasible to correctly compute arsenic compound level in water.   MZI sensor has many compensation, diminutive, least use of instrumentation, and ready to be used with CMOS technology. Follows in the paper, arsenic compound level of wavelength range of 1530–1565 nm is analyzed and detected. Experiential program from the band arrangement that for minute change in refractive index is accounted, subsequently logical shift in the frequency and amplitude will be evident enlarging mach Zehnder interferometer will behave as a sensor. Thus projected alternate included optical Mach Zehnder Interferometer (MZI), composed of  graded index channel waveguide that can be frequently used as chemical and biological sensor in this manuscript. This dissertation describes how the MZI operates two arms predominantly to conquer the industrial challenges. Manuscript represents test data, graph and results that exemplify the performance of whole system. 

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