Phonon Scion: Acoustic Ternary Computing
The electronic Scion — spin-one defect centres, quantum dots, and donor spins computing in three states.
Explore the Vision
Discover this technology through five complementary perspectives — from technical architecture to partnership outcomes. Each layer reveals a different aspect of how this innovation creates value.
The electronic Scion — spin-one defect centres, quantum dots, and donor spins computing in three states.
What It IS
Technical VisionThe architectural essence — what makes this technology work
An electronic substrate where spin-one defect centres in diamond, quantum dot arrays in silicon, and molecular electronic resonators each support three discrete electronic states. Microwave resonant readout extracts the ternary answer. Electrons spinning in three directions.
Abstract
Physical substrate for ternary computation using acoustic phonons, enabling ultra-low-power processing in phononic devices.
Visual Essence
An electronic substrate where spin-one defect centres in diamond, quantum dot arrays in silicon, and molecular electronic resonators each support three discrete electronic states. Microwave resonant readout extracts the ternary answer. Electrons spinning in three directions.
Technology Domains
Related Patents
From the substrate-deep visual family
Tagged Ternary Dataflow and Computation Model
The parent substrate — the abstract computational medium from which all Scions grow.
Bundle³ and Bijection Properties
The chiral phonon Scion — computation through sound vibrations in crystal.
Electronic Scion: CMOS Ternary Implementation
The magnonic Scion — magnon waves in altermagnetic materials computing in three spin states.
Magnonic Scion: Spin-Based Ternary Storage
The hybrid Scion — phonon, photon, electron, and magnon substrates coupled into one system.