Object-oriented Python library for computation of properties of highly-excited Rydbeg states of alkali and divalent atoms.
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Updated
Dec 26, 2024 - Python
Object-oriented Python library for computation of properties of highly-excited Rydbeg states of alkali and divalent atoms.
Collection of functions to solve the optical Bloch equations
Rydberg Sensor Interactive Quantum Physics Module
Library to calculate Stark and Zeeman maps for Rydberg helium, in either the n,L,S,m_L or n,L,S,J,m_J basis, using the Numerov method.
A cluster optimized Python based simulation framework to simulate Rydberg tweezer dynamics utilizing tensor network methods
Calculate state properties of helium
Calculate the Stark effect in Rydberg helium using the Numerov method
Create animations of the Rydberg electron charge distribution in helium as a function of electric field using the Numerov method
Approximation of computed data with empirical pair potentials
A classical simulation of the dynamics of Rydberg atoms in a lattice at ultracold (near absolute zero) temperatures. These simulations were used for both qualitative and quantitative analysis of the system.
Calculate the Stark effect in Rydberg helium in the n,L,S,J,MJ basis using the Numerov method.
Calculate the Stark effect in Rydberg helium in the n,L,S,ML basis using the Numerov method.
The determination of the Rydberg Constant using a spectrometer. The final result was found to be accurate to within 0.64% of the established value, with a precision of 0.44%.
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