100% = sharp quantum states with discrete energies, 0% = classical uncertainty with continuous frequencies
100%
How fast excited atoms release photons and drop to lower energy levels. Controls cascade timing.
200ms
Different waveforms create different timbres while preserving quantum energy relationships
Sine
Controls how quantum energy levels are mapped to audible frequencies. Essential for hearing low-energy states.
110
Linear
Logarithmic
Octave Fold
Normalize
Energy Cascade
Superposition
Entanglement
Tunneling Beats
Coherence
Interference
Phase Transition
Quantum Revival
Scientific Mode: Explore quantum phenomena through direct manipulation of potential wells. Each configuration produces unique sonic signatures that reflect the underlying physics.
Square Well
5.0
System Analysis:
Energy Levels: -
Avg Spacing: -
Quantum Number: -
Degeneracy: -
Tunneling Prob: -%
Controls how much measurement disturbs the quantum system. 100% = complete collapse, lower values = partial measurement
100%
Quantum Sequencer: Generate melodies and rhythms from quantum phenomena like quantum walks, spin chains, tunneling rhythms, and interference beats.
Controls quantum transition probabilities - higher values = bigger jumps between energy states
50%
How fast the quantum system evolves in time - controls tempo of generated patterns
500ms
How long quantum superposition lasts before decoherence - longer = more predictable patterns
1000ms
Generated Sequence:
Click "Generate" to create a quantum sequence...
Step-by-Step Control:
Temperature affects thermal energy distribution, coupling controls particle interactions
300K
1.0
Enhanced sequence generation and integration options
Dual-Validity Framework
This prototype demonstrates how quantum mechanical principles can be translated into sound while maintaining both scientific accuracy and artistic expressiveness.
Core Concepts:
Energy Quantization: Discrete energy levels create specific pitches
Wavefunction: Spatial probability shapes timbre and stereo field
Quantum Tunneling: Probabilistic note transitions
Superposition: Multiple simultaneous states create rich harmonies
Measurement Collapse: Observation changes the quantum state
Entanglement: Correlated particles affect each other instantaneously
🆕 Coherence: Temperature-dependent quantum state stability
🆕 Interference: Wave interference patterns with thermal noise
🆕 Phase Transitions: Critical point phenomena at specific coupling values
4 New Quantum Modes: Coherence, Interference, Phase Transition, Quantum Revival
Frequency Mapping System: 4 strategies to make all energy levels audible
Advanced Measurement Tools: Weak, continuous, and adjustable-strength measurements
Enhanced Parameters: Temperature, coupling strength, coherence time effects
Step Control Mode: Individual control over sequence steps
Synthesizer Integration: Apply quantum modes to sequencer patterns
Usage:
Adjust the potential well shape by dragging on the visualization. Each configuration generates different energy levels and wavefunctions, resulting in unique sonic signatures that reflect the underlying quantum physics. Use the new frequency mapping modes to ensure all quantum states are audible.
EIGENSOUND LITE v0.2.0
Created by Daniel Sandner as research experiment
for scientific paper project: "Sonification of Quantum Mechanics for Scientific Exploration and Artistic Expression"