Ovito Top - !!top!!

In a raw simulation dump, dislocations appear as messy strings of atoms. OVITO Top transforms this noise into clean, vector-based lines. This allows for high-quality publication visualizations and easier quantitative analysis (e.g., counting dislocation density over time).

: You can deactivate or remove modifiers at any time without losing the original input data. Key Analysis & Visualization Features

In tribology (friction) and mechanical slicing simulations, the material deformation front often moves along a specific axis. Isolating the Top view allows researchers to slice and view dislocations across the slip planes cleanly. 3. How to Configure and Maximize the Top View in the GUI

| You want to... | Do this... | | :--- | :--- | | See crystal types | Add Common Neighbor Analysis | | Delete water molecules | Add Select Type (select type ID) > Delete Selected Particles | | Measure distance between two atoms | Utilities (right side) > Measure | | Make a movie | File > Export Animation | | Color by velocity | Color coding > Property = "Velocity" | ovito top

When simulating materials like graphene, hexagonal boron nitride (h-BN), or transition metal dichalcogenides (TMDs), the atomic lattice rests entirely in a single or narrow 2D plane. Looking directly from the makes it easy to identify point defects, Stone-wales transformations, and moiré patterns without z-depth blurring. Surface Adsorption & Thin Films

The software converts raw coordinate data into clear, publication-ready visual models. It supports large datasets containing billions of particles without performance degradation. Render Engines

Working with the Top view in the desktop environment requires using a few built-in window manipulation tools: In a raw simulation dump, dislocations appear as

The or defect type you are trying to analyze.

When researchers and data scientists search for , they are typically looking for two things: the top features that make OVITO indispensable, or how to perform topological and surface analysis using OVITO’s advanced modifiers.

Top View Tip: Apply Color Coding based on Z-coordinates to create a topographical map of a surface. C. Cut-off Views for Top-Down Investigation : You can deactivate or remove modifiers at

The Coordination Polyhedra modifier constructs coordination polyhedra around selected atoms for visualization purposes. These form surface meshes whose visual appearance—including surface transparency—can be configured through associated visual elements.

Constructs continuous geometric surfaces around particle clusters to calculate volumes and surface areas.