Magnonic Scion: Spin-Based Ternary Storage
The hybrid Scion — phonon, photon, electron, and magnon substrates coupled into one system.
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 hybrid Scion — phonon, photon, electron, and magnon substrates coupled into one system.
What It IS
Technical VisionThe architectural essence — what makes this technology work
Four physical substrates — chiral phonon, photonic, electronic, and magnonic — woven together through cross-domain coupling. Computation flows between physics as needed: light where speed matters, sound where coherence matters, electrons where density matters, magnons where field-sensitivity matters.
Abstract
Magnetic spin systems for ternary state representation and computation, enabling non-volatile storage and ultra-low switching energy.
Visual Essence
Four physical substrates — chiral phonon, photonic, electronic, and magnonic — woven together through cross-domain coupling. Computation flows between physics as needed: light where speed matters, sound where coherence matters, electrons where density matters, magnons where field-sensitivity matters.
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.
Phonon Scion: Acoustic Ternary Computing
The electronic Scion — spin-one defect centres, quantum dots, and donor spins computing in three states.
Electronic Scion: CMOS Ternary Implementation
The magnonic Scion — magnon waves in altermagnetic materials computing in three spin states.