HQS Spin Mapper
From chemical reactions to magnetic materials, the presence of unpaired electrons holds immense significance in shaping various material properties. Recognizing this crucial role, the HQS Spin Mapper has been created to seamlessly transfer unpaired electrons from electronic systems into a spin framework. By facilitating the conversion of electron systems into a spin-based representation, the HQS Spin Mapper opens up a realm of possibilities for exploring the intricate world of electron interactions. It empowers researchers to explore the effects of spin-spin interactions, both in closed and open environments. This module serves as a catalyst for identifying and extracting the fundamental spin degrees of freedom present in solids and molecules, enabling detailed simulations to unravel the quantum properties that underlie their behavior. Describing important quantum mechanical properties of materials through spin degrees of freedom also allows a smooth connection to quantum computers.
A potential use case is the study of materials with dominant spin physics (i.e. magnetism) on a quantum computer. For this purposes HQS Spin Mapper provides a method to derive an accurate material-specific effective spin-bath model description from first principles, which can be used in a computation on a quantum device.
Documentation
The detailed Documentation of HQS Spin Mapper.