Advancing Physics Research with AI

Unlock the Secrets
of Quantum Vacuum

A cutting-edge research platform combining AI agents, Casimir effect simulations, and electromagnetic field analysis to push the boundaries of physics research.

Launch ApplicationExplore Features
Casimir Simulations
FDTD Field Analysis
AI Research Agents

Powerful Features

Everything you need to conduct cutting-edge physics research in one integrated platform.

Casimir Effect Simulations

Calculate quantum vacuum forces between surfaces with multiple geometries including parallel plates, spheres, cylinders, and custom shapes.

FDTD Electromagnetic Analysis

Full 3D finite-difference time-domain simulations with configurable boundary conditions, sources, and material properties.

AI Research Agents

Multi-agent AI system powered by Claude to analyze papers, detect contradictions, and synthesize research insights.

Knowledge Graph

Neo4j-powered knowledge graph to map relationships between concepts, papers, and experimental results.

Interactive Visualizations

Real-time charts and 3D visualizations for simulation results, field distributions, and research metrics.

Equation Library

Comprehensive equation database with LaTeX rendering, variable definitions, and domain categorization.

High-Performance Rust Engine

Physics calculations powered by optimized Rust libraries for maximum accuracy and performance.

Research Collaboration

Project-based organization with team collaboration, version history, and research tracking.

Physics Simulations

From quantum vacuum fluctuations to electromagnetic field dynamics.

Casimir Effect

Quantum vacuum forces

Supported Geometries

Parallel Plates

Classic Casimir configuration

Sphere-Plate

Proximity force approximation

Cylindrical

Mode summation technique

Wedge

Angular geometry effects

Material Models

Perfect Conductor1pm - 1mm
Gold (Drude)10nm - 10μm
Aluminum10nm - 10μm
Custom DielectricAny

FDTD Analysis

Electromagnetic field simulation

Capabilities

  • 1D, 2D, and 3D simulations
  • Yee algorithm Maxwell solver
  • PEC, PMC, ABC, Periodic boundaries
  • Gaussian pulse & plane wave sources
  • Configurable grid resolution (1-100nm)
  • Real-time field visualization

Output Analysis

E-field magnitude
EM energy density
Field time history
Frequency response
Start your research journey today

Ready to Explore
Quantum Frontiers?

Join researchers using Binelek to push the boundaries of physics understanding. From Casimir forces to electromagnetic phenomena.

Launch Application
6+
Geometries
4+
Material Models
3D
Simulations