Simulating the Future of Networks with Optiwave

Optiwave Systems is an Ottawa based software company, boasting a robust variety of photonic design tools, which it provides to hundreds of leading high-technology institutions. Founded in 1994 and incorporated in 2005, the company has a well-established community of over one thousand users in over seventy countries. Optiwave has come to CENGN in order to validate…

Optiwave and EXFO Partners for Automation in Lab and Manufacturing

OptiInstrument is a software tool that makes it easy to communicate with instruments and automate their operation using remote control scripts. OptiInstrument, developed by Optiwave in collaboration with EXFO, addresses the need to automate instruments for researchers, scientists, photonic engineers, professors, and students. OptiInstrument provides a simple, efficient, and user-friendly way to meet multiple applications.…

New OptiInstrument Software Simplifies Communication and Control in Test and Measurement

  OptiInstrument software enables remote communication and control of instruments to simplify and speed up testing and automated measurement and characterization. OTTAWA, ONTARIO — Wednesday, July 8, 2020 — Optiwave, a provider of the world’s leading photonics design software, now offers a new software, OptiInstrument. OptiInstrument software is a standalone tool that can be used…

“Design of an Efficient Thulium-doped Fiber Amplifier for Dual-hop Earth to Satellite Optical Wireless Links” Published in Ain Shams Engineering Journal

We are pleased to provide our co-authored paper in Ain Shams Engineering Journal Design of an Efficient Thulium-doped Fiber Amplifier for Dual-hop Earth to Satellite Optical Wireless Links ABSTRACT Optical wireless communication (OWC) links enable high-speed data transmission between earth stations and satellites. The propagation of optical signals through the atmosphere suffer from atmospheric attenuation…

Photonic Crystal Fiber Temperature Sensor using OptiMode

Photonic crystal fibers (PCF) have been extensively investigated for chemical, bio-medical, and environmental sensing applications. PCF provides a unique platform for realizing the desired modal dispersion, birefringence, confinement, and multiplicity characteristics. This can be attributed to the freedom in designing the microstructure geometry. Of significant importance for sensing applications, various chemical, biological, and inorganic materials…

Photonic Crystal Fiber Bio-chemical Sensor using OptiMode

Photonic crystal fibers (PCF) are attractive for chemical, biomedical, and environmental sensing applications. The freedom in designing the microstructure geometry provides a unique platform for realizing the desired modal dispersion, birefringence, confinement, and multiplicity characteristics. Of significant importance to these features, chemical, biological and inorganic materials can be introduced to the PCF by selective hole…

Optical System — Photonic Crystal Fiber Supercontinuum Generation

a photonic crystal fiber supercontinuum generation schematic

Abstract Photonic crystal fiber (PCF) provides a unique platform for realizing the desired dispersion, birefringence, confinement, and mode multiplicity characteristics from a supercontinuum light source for myriad applications. This can be attributed to the freedom in designing the shape, size, and arrangement of holes and material composition of the PCF. Using the vector finite element…

OptiSPICE Tanner Plugin

      Introduction OptiSPICE Tanner (Siemens EDA) Plugin was created by Optiwave and Siemens (Mentor Graphics) to enhance (Siemens EDA) Tanner T-Spice with optical circuit simulation capabilities. The seamless integration of optical models into the Siemens EDA (Tanner EDA) enables the simulation of complex optoelectronic circuits from schematic or mask layout within a single…