Particles: Individual points/dots making up the visualization
Emitters: Sources that generate new particles
Attractors: Points that pull or push nearby particles
Vector Field: Invisible force patterns guiding particle movement
Trail Effect: The path left behind by moving particles
Opacity/Alpha: Transparency level of particles (0-100%)
Hue: Color of particles (0-360° on color wheel)
Saturation: Color intensity (0-100%)
Luminance: How light/dark colors appear (0-100%)
Blend Mode: How overlapping particles combine visually
Decay Rate: How quickly particles fade out or shrink
Velocity: Speed and direction of particle movement
Acceleration: How quickly particles change speed/direction
Oscillation: Regular back-and-forth movement patterns
Turbulence: Random, chaotic movement patterns
Flow Field: Directional forces that guide particles along paths
Damping: Gradual reduction of movement over time
Particle Burst: Sudden explosion of particles from a point
Ripple Effect: Expanding circular waves of particles
Gravitational Lensing: Bending of particle paths around a point
Quantum Tunneling: Particles teleporting between locations
Vortex: Spiraling movement around a central point
Nebula Effect: Cloud-like clusters of particles
Cursor Attraction: Particles moving toward pointer
Cursor Repulsion: Particles moving away from pointer
Drag Response: How particles react when you drag across screen
Emission Rate: How many particles are created per second
Force Multiplier: Strength of interaction effects
Interaction Radius: How far from cursor effects reach
Singularity: Particles flowing toward/from central points
Quantum Flux: Particles with oscillating behavior and quantum effects
Hyperdrive: High-speed tunnel/warp effect with z-axis movement
Neural Network: Connected nodes with pathways for particle flow
Cosmic Vortex: Spiral galaxy with black hole and orbital mechanics