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OptiBPM 13.1.1 – Customer Upgrade

This file may be downloaded and used by all customers with active maintenance & support. Those without maintenance will get a "license not found" error message upon executing the software. For help, or to request the password, please send an email to info@optiwave.com with your OptiBPM serial #.

OptiBPM 13.1.1 - Install
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OptiBPM 13.1.1 - Release Notes

This download is compatible with Windows 7/8/10 (64-bit)

Categories

  • Applications
  • New features
  • References
  • Training
  • Videos

OptiBPM Manuals

  • OptiBPM Tutorials
    • OptiBPM Applications
      • VFEM Accuracy and Advantages
      • Create an MMI star coupler
      • Create a Chip-to-fiber Butt Coupler
      • Electro-Optic Modulator
      • Integrated Optical Circuit Simulation Using OptiBPM and OptiSystem – Scattering Data Export
      • Mach-Zehnder Interferometer Switch
    • BPM Technical Background
      • Introduction
      • Slowly Varying Envelope Approximation
      • Differential Equations of BPM
      • Semi-Vector and Scalar BPM
      • Crank-Nicholson Method and Scheme Parameter
      • ADI
      • Boundary Conditions for BPM
      • Perfectly Matched Layer (PML)
      • Wide-Angle Beam Propagation Method
      • Finite Difference Beam Propagation Method (FD-BPM) with Perfectly Matched Layers
      • Finite Difference Beam Propagation Method (FD-BPM) with Transparent Boundary Conditions
      • Finite Element Beam Propagation Method (FE-BPM) with Perfectly Matched Layers
      • Wide-Angle Beam Propagation Method based on Pade Approximant Operators
      • Fresnel Approximation (Pade 0th Order)
      • Wide Angle (WA), Pade(1,1)
      • Wide Angle (WA), Pade(2,2)
      • Wide Angle (WA), Pade(3,3)
      • Wide Angle (WA), Pade(4,4)
      • References
    • Conformal Mapping Regions
      • Conformal Mapping Regions Introduction
      • Conformal Mapping Regions References
    • Diffusion in Lithium Niobate
      • Titanium Diffusion in Lithium Niobate
      • Magnesium Diffusion in Lithium Niobate
      • Proton Exchange Process in Lithium Niobate
    • Electro-optic Effect
      • Introduction
      • Index Ellipsoid
      • References
    • Scattering Data
      • Introduction
      • Modeling of the Optical Components – Survey of Methods
      • Circuit Complexity Introduction
      • Huge BPM Devices (“mux/demux”)
      • Multidirectional BPM Device
      • Devices Consisting of the Combination of BPM & Gratings (“Add/Drop”)
      • Devices out of Scope of the BPM Technique (ring resonator)
      • Scattering Data Approach
      • Implementation with OptiSystem
      • Solutions using OptiSystem
      • Four Channel Mach-Zehnder Multi/Demultiplexer
      • The MZI – ‘Loopy’
      • Add/Drop Bragg MZI
      • Ring Resonator
      • References
      • Non-linear BPM Algorithm
    • Manual Calculation Method
      • Introduction
      • Innermost Loop
      • Central Wavelength Approximation
      • BPM Calculations
      • Tilted Waveguides
    • Vectoral Beam Propagation for Anisotropic Waveguides
      • Introduction
      • Mathematical Formulations
      • Continuous Wave Equations for Anisotropic Media
      • Full E-vector Formulation
    • Vectoral Modal Analysis for Anisotropic Waveguides
      • Introduction
      • Appendix I
      • Full H-vector Formulation
      • H-Vectorial Modal Analysis for Anisotropic Waveguide
      • Appendix II
      • H-Formulation
      • References
    • Fiber Mode Solvers
      • Introduction
      • Real-valued formulation
      • Debye Potential
      • Separation of Variables
      • Solution of the Linear System
      • Dispersion Equation
      • LP Modes
      • References
    • Finite Difference Mode Solver
      • Introduction
      • Magnetic Formulation
      • Magnetic Finite Difference Equations
      • Implicitly Restarted Arnoldi Method (IRAM)
      • Transparent Boundary Condition (TBC)
      • References
    • Lesson 1: Getting Started
      • Before Installation
      • Installation
      • Introduction to OptiBPM
      • Introduction to Optical Waveguides
      • Quick Start
      • GUI Main Parts
      • How to use OptiBPM
      • Defining Materials
      • Defining 2D and 3D Channel Profiles
      • Defining the Layout Settings
      • Creating a Basic Project
      • Inserting the Input Plane
      • Running the Simulation
      • Selecting the Master Library Path
    • Lesson 2: Create a Simple MMI Coupler
      • Defining Materials for the MMI Coupler
      • Defining the Layout Settings
      • Creating an MMI Coupler
      • Inserting the Input Plane
      • Running the Simulation
      • Viewing Results in the BPM Analyzer
    • Lesson 3: Create a Single-Bend Device
      • Defining Materials
      • Defining Layout Settings
      • Creating an Arc Waveguide
      • Inserting an Input Plane
      • Selecting Output Data Files
      • Running the Simulation
      • Viewing Results in the BPM Analyzer
    • Lesson 4: Create an MMI Star Coupler
      • Create an MMI Star Coupler
    • Lesson 5: Wavelength Scripting with VB Script
      • Defining Materials
      • Defining Layout Settings
      • Modifying the Input Plane
      • Assigning Paths to the Waveguides
      • Running the Simulation
      • Viewing Results in the BPM Designer
      • Using VB Scripting for the Simulation
      • Viewing Results in the BPM Analyzer
    • Lesson 6: Design a 3dB Coupler using VB Script
      • Defining Materials
      • Defining Layout Settings
      • Drawing and Positioning the Waveguides
      • Generating the Layout Script
      • Inserting and Editing the Input Plane
      • Running the Simulation
      • Modifying the Layout Script
      • Viewing Results in the BPM Analyzer
    • Lesson 7: Applying Predefined Diffusion Processes
      • Creating a Linear Waveguide Formed by the Titanium Diffusion in Lithium Niobate
      • Defining Layout Settings
      • Setting Simulation Parameters
      • Running the Simulation
      • Creating a Buried Waveguide Formed by Titanium Diffusion in Lithium Niobate
      • Adding a New Profile
    • Lesson 8: 3D OptiMode Solver - COST Project Waveguide
      • Introduction
      • Defining Materials
      • Designing the Waveguide
      • Parameterizing the Problem
      • Adding a Substrate Layer
      • Setting Simulation Parameters
      • Modifying the Film Thickness
      • Automatically Modifying a Parameter by Script
    • Lesson 9: Create a Chip-to-Fiber Butt Coupler
      • Create a Chip-to-Fiber Butt Coupler
    • Lesson 10: Electro-Optic Modulator
      • BPM Electro-Optic Modulator
    • Lesson 11: Integrated Optical Circuit Simulation using OptiBPM and OptiSystem - Scattering Data Export
      • Integrated Optical Circuit Simulation using OptiBPM and OptiSystem – Scattering Data Export
    • Lesson 12: Scan the Refractive Index (RI)
      • Introduction
      • Defining Materials & Channel
      • Defining Layout Settings
      • Drawing Linear Waveguide
      • Creating the Script
      • Running the Simulation
      • Viewing Results in the BPM Analyzer
    • Lesson 13: Applying User-defined Diffusion Profiles
      • Introduction
      • Developing the User Defined Profile
      • User Defined Profile
    • Lesson 14: Mach-Zehnder Interferometer Switch
      • Mach-Zehnder Interferometer Switch

Optiwave Invites you to ETOP 2023

May 4, 2023
Cocoa Beach, FL, USA 15 – 18 May 2023 We are thrilled to announce that we will participate in the upcoming ETOP 2023 conference. This event is one of the most important gatherings for academic communities in our industry, and we are excited to be a part of it. ETOP, Education and Training in Optics…
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