Oprogramowanie do symulacji inżynierskich OptiGrating


OPTIWAVE

SPECTROPOL is the distributor of the Canadian company Optiwave, a company with 30 years of experience in creating groundbreaking software tools adapted to the design, simulation and optimization in the constantly developing areas of photonic nanotechnology, optoelectronics and optical networks.

Optiwave software is used by over 1000 scientific, research and industrial institutions in 80 countries around the world.

OptiGrating: Simulation and Design of Efficient Optical Gratings

In what areas is OptiGrating used?

Most popular applications

OptiGrating zapewnia zaawansowane narzędzia do symulacji, analizy i projektowania optycznych siatek, co czyni je kluczowym narzędziem dla inżynierów zajmujących się fotoniką oraz komunikacją światłowodową.

OptiGrating is an advanced yet user-friendly software for modeling fiber optic and integrated devices that incorporate optical gratings. Over the past decade, it has become the de facto standard in the field. Based on the Coupled Mode Theory, OptiGrating enables the analysis and synthesis of optical gratings. A complex grating is approximated by a sequence of uniform segments that are analyzed using the well-known Transfer Matrix Method. This provides the designer with the necessary information to test and optimize grating designs.

Fiber Bragg Gratings (FBG) are among the most versatile photonic components available on the market. OptiGrating enables the simulation of FBGs and other complex gratings by approximating them using a sequence of uniform segments that are then analyzed using the Transfer Matrix Method. This makes the tool extremely efficient for designing and optimizing gratings for a variety of applications.

 

Video – Discover OptiGrating

0:15 OffD Grading

0:50 Fiber Profile

1:45 Grading

2:05 tripping grading

2:33 Linear grading

3:19 Spectrum range

3:30 Velocity

 

OptiGrating Applications

Below is a list of selected scientific publications, technical journals, periodicals and conference proceedings that refer to the use of OptiGrating software. These references have been collected from internal sources, articles submitted by customers and scientific publications from Google Scholar. To the best of our knowledge, all of these works use the OptiGrating software package. If you notice any errors, please contact us immediately at info@spectropol.pl or info@optiwave.com.

  1. Design of High Performance Triangular Fiber Bragg Grating Temperature Sensor using OptiSystem and OptiGrating Software https://doi.org/10.1088/1742-6596/2627/1/012001
  2. Performance Evaluation of Linearly Chirp Fiber Bragg Grating for Time Delay Analysis in Beam Steering for Enhance Communication https://ieeexplore.ieee.org/abstract/document/10085177/
  3. AI Mahmood, HA Naser and AT Lateef, “Impact of fiber Bragg grating as dispersion compensator on optical communication systems https://pubs.aip.org/aip/acp/article/2804/1/020009/2910275
  4. HN Mandal and S Sidhishwari, “Sensitivity Enhancement of Apodized Fiber Bragg Grating for Temperature Measurement https://doi.org/10.3103/S1541308X23040039
  5. Design mode filtering interferometer using etched double clad fiberhttp://doi.org/10.1515/joc-2023-0151
  6. A Narayanan, “Femtosecond Pulse Filamentation In Sapphire Crystals Toward Photonics Sensor Fabrication” (scholarworks.utrgv.edu, 2023), https://scholarworks.utrgv.edu/etd/843/
  7. MD Nadeem, SK Raghuwanshi and R Kumar, “Efficient photonics beam forming system incorporating super structure fiber Bragg grating for application in Ku band”, Optical Fiber Technology (Elsevier, 2023), https://www.sciencedirect.com/science/article/pii/S106852002300216X
  8. T Agliullin, V Anfinogentov, O Morozov and …, “Comparative Analysis of the Methods for Fiber Bragg Structures Spectrum Modeling”, Algorithms (mdpi.com, 2023), https://www.mdpi.com/1999-4893/16/2/101
  9. D Irawan, K Ramadhan, T Saktioto and …, “An optimum design of high sensitivity PMMA-coated FBG sensor for temperature measurement”, TELKOMNIKA … (telkomnika.uad.ac.id, 2023), http://telkomnika.uad.ac.id/index.php/TELKOMNIKA/article/view/22746
  10. N Basumallick, R Mitra, S Chattopadhyay and …, “Noise cancellation in distributed feedback laser based interrogation system for twin grating accelerometer”, Physica … (iopscience.iop.org, 2023), https://doi.org/10.1088/1402-4896/acf4cb
  11. HN Mandal and S Sidhishwari, “Sensitivity analysis of designed apodized fiber Bragg grating sensor using artificial neural network and tree-based models”, Results in Optics (Elsevier, 2023), https://www.sciencedirect.com/science/article/pii/S2666950122001328
  12. T Liu, Y Li, X Dai, W Gan, X Wang, S Dai and …, “Simultaneous detection of temperature, strain, refractive index, and pH based on a phase-shifted long-period fiber grating”, Journal of Lightwave … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10065426/
  13. I Murans, J Braunfelds, U Senkans and …, “Designing of FBG Based Sensor Networks for Long-Distance Monitoring Solutions”, 2023 Photonics & … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10221354/
  14. J Qu, H Zhang, X Shi, C Li, D Jia, T Liu and R Su, “High Sensitivity Temperature Sensing of Long-Period Fiber Grating for the Ocean”, Sensors (mdpi.com, 2023), https://www.mdpi.com/1424-8220/23/10/4768
  15. TK Dey, P Biswas, N Basumallick and …, “Long-Period Fiber Grating Probe: An Improved Design Suitable for Biosensing”, IEEE Sensors … (ieeexplore.ieee.org, 2023), https://ieeexplore.ieee.org/abstract/document/10048781/
  16. LP Tendela, CA Cuadrado-Laborde and MV Andrés, “In-Fiber All-Optical Fractional Differentiator Using an Asymmetrical Moiré Fiber Grating”, Fractal and Fractional (mdpi.com, 2023), https://www.mdpi.com/2504-3110/7/4/291
  17. S Pawar, R Yadav, G Chouhan and …, “Effect of Dispersion and Nonlinearity on Ultrashort Optical Pulse Propagation in Long Period Fiber Grating: An Analytical Investigation”, Journal of Nonlinear … (World Scientific, 2023), https://doi.org/10.1142/S0218863523500686
  18. HN MANDAL and S Sidhishwari, “Theoretical Investigation for the Impact of Apodized Fiber Bragg Grating and Machine Learning Approach in Quasi-distributed Sensing”, Measurement Science and … (iopscience.iop.org, 2023), https://doi.org/10.1088/1361-6501/acde9a
  19. MD Nadeem, SK Raghuwanshi, R Raj and …, “Photonic assisted arbitrary microwave signal generation based on opto-electronic oscillator”, … and Integration XII (spiedigitallibrary.org, 2023), https://doi.org/10.1117/12.2687597.short
  20. ANZ Rashed, VS Bhargavi, MLL Mary and …, “Co-directional waveguide grating coupler transmission and reflection dispersion characteristics performance”, Journal of Optical … (degruyter.com, 2023), https://doi.org/10.1515/joc-2023-0014
  21. J Braunfelds, “DEVELOPMENT OF THE MULTIFUNCTIONAL FIBER OPTICAL SENSING SYSTEM AND ITS APPLICATION IN MONITORING SOLUTIONS”, ebooks.rtu.lv, https://ebooks.rtu.lv/wp-content/uploads/sites/32/2023/05/9789934229220-PDK_Janis_Braunfelds_EN.pdf
  22. S Bhoompally, MM Reddy, TM Kak Anwer and …, “Distributed feedback laser grating order effects on optical systems with NRZ-RZ line coding scheme performance signature”, Journal of Optical … (degruyter.com, 2023), https://doi.org/10.1515/joc-2023-0072
  23. AR Salah, A Mahmud, S Hassan and …, “MDM over hyber FSO and fiber to the x FTTX”, Al-Qalam journal … (scientificjournal.alqalam.edu.iq, 2023), https://scientificjournal.alqalam.edu.iq/index.php/AJPAS/article/download/220/32
  24. ANZ Rashed, MM Reddy, S Nagendram and …, “Simulative study of vertical cavity with distributed feedback optical sources coupling to fiber systems evaluation”, Journal of Optical … (degruyter.com, 2023), https://doi.org/10.1515/joc-2023-0017
  25. AN Zaki Rashed, C Muppala, A Gopalan and …, “On off keying line coding based optical transmitter for various both optical fiber communication and OWC channels”, Journal of Optical … (degruyter.com, 2023), https://doi.org/c-2023-0071
  26. ANZ Rashed, G Ramkumar, MLN Srinivasan and …, “The efficient employment of the space division multiplexing technique with OADMs for more flexibility and scalability in optical systems https://doi.org/10.1515/joc-2023-0024
  27. Simulasi Respon Spektrum Refleksi Serat Optik Corning Smf-28 Sebagai Fiber Bragg Grating (Fbg) Menggunakan Aplikasi Optigrating  https://repository.uinjkt.ac.id/dspace/handle/123456789/73516
  28. J KLIMEK, Wpływ zmian profilu apodyzacyjnego siatki Bragga na jej charakterystyki spektralne http://pe.org.pl/articles/2023/1/68.pdf
  29. Design of Graphene Coated on FBG for High Temperature Sensor https://jppipa.unram.ac.id/index.php/jppipa/article/view/5242

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