Litcius/Paper detail

PyCCE: A Python Package for Cluster Correlation Expansion Simulations of Spin Qubit Dynamics

Mykyta Onizhuk, Giulia Galli

2021Advanced Theory and Simulations49 citationsDOIOpen Access PDF

Abstract

Abstract PyCCE, an open‐source Python library for simulating the dynamics of spin qubits in a spin bath, is presented using the cluster‐correlation expansion (CCE) method. PyCCE includes modules to generate realistic spin baths, employing coupling parameters computed from first principles with electronic structure codes, and enables the user to run simulations with either the conventional or generalized CCE method. Three use cases of the Python library are illustrated: the calculation of the Hahn‐echo coherence time of the nitrogen‐vacancy in diamond; the calculation of the coherence time of the basal divacancy in silicon carbide at avoided crossings; and the calculation for magnetic field orientation‐dependent dynamics of a shallow donor in silicon. The complete documentation, downloadable tutorials, and installation instructions are available at https://pycce.readthedocs.io/en/latest/ .

Topics & Concepts

Python (programming language)QubitComputational scienceComputer scienceCluster (spacecraft)PhysicsStatistical physicsQuantum mechanicsProgramming languageQuantumSemiconductor materials and devicesQuantum and electron transport phenomenaDiamond and Carbon-based Materials Research