Quantum Materials

Simulating the Unsimulatable—Quantum Materials Without Approximations

Some materials defy classical understanding, governed instead by quantum mechanics and entangled interactions. Automatski’s quantum simulation technology enables precise, first-principles modeling of these exotic systems—unlocking a new era in materials discovery without relying on approximations or shortcuts.

When Classical Physics Fails, Quantum Mechanics Begins

Quantum materials are those whose behavior cannot be explained using classical physics. Their properties—such as superconductivity, topological phases, spin liquids, and correlated electron behavior—emerge from quantum mechanical effects that require direct calculation from first principles using quantum wavefunctions.

The Challenge

Classical methods fail to capture the full physics of strongly correlated systems.
Traditional approximations break down when quantum entanglement and many-body effects dominate.
High-fidelity simulation of quantum materials demands an exponential amount of computational resources.

The Automatski Breakthrough

Full Quantum Simulations Without Any Approximations.

Automatski’s 300+ Qubit Quantum Simulator can perform ab initio simulations of quantum materials with zero approximations—right now.
Its scalable Quantum Simulation Systems extend capabilities to simulate quantum materials with 100,000+ qubits, still without approximations.
This represents an exponential leap in the study and engineering of materials at the quantum level.

This is the exponential breakthrough the world has been waiting for.

Author : Aditya Yadav

Quantum Materials

Simulating the Unsimulatable—Quantum Materials Without Approximations

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