OptiFiber Publication References – 2019

Compatibility:

The following is a list of scientific papers, technical journals, periodicals, and conference publications which reference the use of OptiFiber.  These references were collected from internal sources, customer submitted papers, and scientific articles via Google Scholar – and to the best of our knowledge, make use of our OptiFiber software package. If you locate any mistakes, please notify us immediately by contacting info@optiwave.com.

 

[1]
Raju, Sumathy, and Muthukumar Arunachalam. “Performance of Fiber with Elevated Refractive Index at Core Axis.” 2019 IEEE International Conference on Intelligent Techniques in Control, Optimization and Signal Processing (INCOS). IEEE, 2019.

 

[2]
Mokhtar, Ayman M., and Mohamed I. Hosni. “Polymer fiber analysis and performance evaluation for short distance applications and medical sensing applications.” Optical Fibers and Sensors for Medical Diagnostics and Treatment Applications XIX. Vol. 10872. International Society for Optics and Photonics, 2019.

 

[3]
Taylor, Stuart A., et al. “Influence of oral contrast agentand ingested volume on small bowel distensionand participant experience during magnetic resonance enterography.” Magnetic resonance enterography compared with ultrasonography in newly diagnosed and relapsing Crohn’s disease patients: the METRIC diagnostic accuracy study. NIHR Journals Library, 2019.

 

[4]
Halder, Arindam, et al. “Fabrication and characterization of bismuth-doped germano-silicate and phospho-silicate fibers for VIS/NIR applications.” Optical Materials Express 9.4 (2019): 1815-1825.

 

[5]
Feng, Da, Weiqiang Sun, and Weisheng Hu. “Optical Grooming Capable Wavelength Division Multiplexing node architecture for beyond 100 Gbps transport.” Optical Switching and Networking 34 (2019): 67-78.

 

[6]
Aswathappa, Sivakumar, et al. “Effect of shock waves on structural and dielectric properties of ammonium dihydrogen phosphate crystal.” Zeitschrift für Kristallographie-Crystalline Materials 234.9 (2019): 557-567.

 

[7]
Halder, Arindam, Alexander V. Kir’yanov, and Kazuya Saito. “Broadband visible-to-NIR ASE from Bismuth doped optical fibers: a window towards lasing.” Japanese Journal of Applied Physics 58.12 (2019): 120915.

 

[8]
Gebhart, Martina. “Nachsorge von bariatrischen Patienten.” Therapeutische Umschau 76.3 (2019): 154-160.

 

[9]
Sabitu, Rabiu Imam, Nuyen Dong-Nhat, and Amin Malekmohammadi. “High dispersion four-mode fiber for mode-division multiplexing systems.” Optik 181 (2019): 1-12.

 

[10]
Sivakumar, A., S. Balachandar, and SA Martin Britto Dhas. “Measurement of “Shock Wave Parameters” in a Novel Table-Top Shock Tube Using Microphones.” Human Factors and Mechanical Engineering for Defense and Safety 4.1 (2020): 3.

 

[11]
Nayak, Sarthak, and Hitabhilash Mohanty. “The Nature of Function Discharged by the Court in Appointing the Arbitrator: Judicial or Administrative?.” Available at SSRN 3328229 (2019).

 

[12]
Tangudu, Ramji, and Prasant Kumar Sahu. “Distributed Optical Fiber Sensing System Performance Improvement Using Signal Processing Techniques.” Advances in Intelligent Computing and Communication. Springer, Singapore, 2020. 37-45.

 

[13]
Sivakumar, A., et al. “Impact of Shock Waves on Molecular and Structural Response of Potassium Dihydrogen Phosphate Crystal.” Journal of Electronic Materials 48.12 (2019): 7868-7873.

 

[14]
Bezold, David E., and Steve O’Hara. “Cloud based system and method for managing testing configurations for cable test devices.” U.S. Patent No. 10,367,713. 30 Jul. 2019.

 

[15]
Cleaver, Angela, and Laura Thomas. “7.4. 11 Other disorders of the colon and rectum.” Manual of Dietetic Practice (2019): 470.

 

[16]
Wooton, Clinton J., John Paul Hittel, and J. David Schell. “System and method for utilizing machine-readable codes for testing a communication network.” U.S. Patent Application No. 16/160,693.

 

[17]
Card, Adam, and Feruz Ganikhanov. “Seeded fiber laser with nonlinear mirror feedback.” Applications of Lasers for Sensing and Free Space Communications. Optical Society of America, 2019.

 

[18]
Rieder, Anne, et al. “At a high dose even partially degraded beta-glucan with decreased solubility significantly reduced the glycaemic response to bread.” Food & function 10.3 (2019): 1529-1539.

 

[19]
Feng, Nan, and Xiang Sun. “Hierarchical modulation PAM4 with digital Nyquist pulse-shaped for flexible multi-ONU provisioning in NG-TDM PON.” Optical Fiber Technology 53 (2019): 102063.

 

[20]
Luo, Jiaqi. Ultrafast mid-IR fiber laser. Diss. 2019.

 

[21]
Rao, Theertham Pradyumna, and Giuseppina Quartarone. “Role of guar fiber in improving digestive health and function.” Nutrition 59 (2019): 158-169.

 

[22]
Rao, Theertham Pradyumna, and Giuseppina Quartarone. “Role of guar fiber in improving digestive health and function.” Nutrition 59 (2019): 158-169.

 

[23]
Silva, Sofia Lopes Salgueiro. “Relatórios de Estágio realizado na Farmácia de Labruge e no Hospital Privado da Boa Nova.” (2019).

 

[24]
Card, Adam D. “ULTRAFAST COHERENT SPECTROSCOPIES AND LASER SOURCES BASED ON THIRD-ORDER NONLINEAR OPTICAL PHENOMENA.” (2019).

 

[25]
Tas, T. A. J., and N. M. van Rijssen. “Enterale voeding.” Informatorium voor Voeding en Diëtetiek–Supplement 103–december 2019. Bohn Stafleu van Loghum, Houten, 2020. 49-82.

 

[26]
BENAKCHA, Abdelhamid. Evaluation of WDM-PON using FTTx Architecture. Diss. University of Biskra, 2019.

 

[27]
BRIONES PACHECO, LUIS ALFREDO. ESTUDIO DE FACTIBILIDAD DE UNA RED DE COMUNICACIÓN A TRAVÉS DE FIBRA ÓPTICA PARA MEJORAR LA VELOCIDAD Y DIFUSIÓN DE LOS DATOS EN LOS LABORATORIOS DE LA CARRERA DE INGENIERÍA EN COMPUTACIÓN Y REDES DE LA UNESUM. BS thesis. Jipijapa-UNESUM, 2019.