Kalanāda is an experimental audio track based on precisely defined frequency relationships, continuous temporal modulation, and controlled stereo differentiation. It is designed as an acoustic system that engages with the perception of time through stable, long-duration sound structures.
The sound consists of a continuous frequency field without abrupt interruptions, in which individual layers evolve slowly and predictably. This construction creates a consistent acoustic environment that minimizes sensory interference and supports focused, deep listening—especially when used with high-quality audio equipment.
Frequency Architecture of the Track
150 Hz – Primary Generator
A fundamental carrier frequency with harmonic components (300 Hz, 450 Hz), forming a dense and stable sonic core.
Smooth Amplitude Modulation (~0.2 Hz)
Very slow fluctuations in amplitude without sharp transitions. The sound evolves naturally over time, reducing listening fatigue.
50 Hz – Low-Frequency Foundation
A continuous bass layer serving as a stabilizing base for the entire spectrum. The sound is perceived more as a presence than as a rhythmic element.
30 Hz – Subharmonic Layer
A subtle low-frequency component at the lower threshold of human hearing, adding physical depth and a sense of spatial grounding.
432 Hz (Left Channel) / 436 Hz (Right Channel)
Stereo differentiation creates a 4 Hz binaural offset, perceptible only when listening with headphones, influencing the perception of rhythm and temporal flow.
120 Hz – Background Tone
A smooth mid-bass layer replacing noise, softening the overall sound and integrating individual frequency bands into a cohesive whole.
Micro-Pulses (Low Amplitude)
Irregular, very subtle impulses that add organic texture and prevent static auditory perception.
Kalanāda creates a stable acoustic environment in which attention naturally settles, subjective time perception slows, and the mind gains space for focus and internal continuity. It is designed for extended listening without fatigue, with an emphasis on balance, smoothness, and sonic precision.
