Contents Menu Expand Light mode Dark mode Auto light/dark, in light mode Auto light/dark, in dark mode Skip to content
janssen 2025.11.01 documentation
janssen 2025.11.01 documentation

Contents:

  • Package Organization
  • Janssen Design Principles
  • Janssen Theory and Architecture Guides
    • Partial Coherence in Optical Microscopy
    • Optical Propagation Methods
    • Ptychographic Phase Retrieval
    • Zernike Polynomials and Optical Aberrations
    • High-NA Vector Focusing
    • PyTree Architecture for JAX Compatibility
    • JAX Sharp Edges
  • API Reference
    • janssen.invert
    • janssen.lenses
    • janssen.models
    • janssen.optics
    • janssen.plots
    • janssen.prop
    • janssen.scopes
    • janssen.utils
  • Tutorials
    • Partial Coherence in Wave Optics
    • Part I: Spatial Coherence
    • Part II: Temporal Coherence
    • Part III: Coherent Mode Decomposition
    • Part IV: Differentiable Partial Coherence
    • Publication Figure
    • Publication Figures
    • Create a diffractogram
    • Polarization in Wave Optics
    • Part I: Jones Calculus
    • Part II: Mueller-Stokes Calculus
    • Part III: Differentiable Polarization Optics
    • Publication Figure
    • Wavefronts Tutorial
    • Zernike Polynomials Tutorial
    • Simulated Microscopes
      • Simple Microscope Simulation
      • Simple Microscope Simulation - Biological Cells
      • Simple Microscope Simulation - Spherical Inclusions
Back to top
View this page

Simulated MicroscopesΒΆ

This section contains notebooks demonstrating microscope simulations using different sample types.

Microscope Simulations

  • Simple Microscope Simulation
  • Simple Microscope Simulation - Biological Cells
  • Simple Microscope Simulation - Spherical Inclusions
Next
Simple Microscope Simulation
Previous
Zernike Polynomials Tutorial
Copyright © 2026, Debangshu Mukherjee
Made with Sphinx and @pradyunsg's Furo