"topic:hydrogen-atom" — Search

Program for calculating the energies of the eigenstates of hydrogen, as well as writing the specified (radial) wavefunction to a .txt file. This is my solution to a homework problem in computational atomic physics.

Fortran31Updated 4 years ago

b-splineseigenstatesenergiesfortranhydrogen-atomlapackwavefunction

zronyj/metodosqm

Funciones para la evaluación energética y gráficas de los diferentes casos que se estudian en Química Cuántica

Python30Updated 1 year ago

harmonic-oscillatorhartree-fockhartree-fock-methodshydrogen-atomhydrogen-moleculeparticle-in-a-boxpythonquantum-chemistryquantum-mechanics

totovr/Python

This repository contains exercises using Python 3.7

20Updated 6 years ago

anacondaatomhydrogen-atompythonraspberry

saturnaxis/ModernPhysics

Lecture notes for PHYS2700: Modern Physics

Jupyter Notebook23Updated 2 months ago

hydrogen-atommodern-physicsquantum-mechanics

ajsteinmetz/magnetic-dipole-moment

Steinmetz, A., Formanek, M. & Rafelski, J. Magnetic dipole moment in relativistic quantum mechanics. Eur. Phys. J. A 55, 40 (2019).

TeX10Updated 1 year ago

dipole-momenthydrogen-atomklein-gordon-equationmagnetic-fieldsphysicspreprintpublication-repositoryrelativistic-quantum-mechanics

albandil/Hex

Hydrogen-electron collision solver (ECS + B-spline)

C++10Updated 4 years ago

exterior-complex-scalinghydrogen-atomscattering

giselamarti/Electronic_Structure

Subject of Electronic structure for my master's degree

Python10Updated 1 year ago

computational-physicsgaussian-orbitalsground-state-energyhydrogen-atompythonquantum-mechanicsself-consistency

Adillwma/QuantumHarmonics

Implements the Time-Independant Schrödinger Equation numerically to solve for the stationary wavefunctions and energy states of a quantum system.

00Updated 2 years ago

hydrogen-atomquantum-harmonic-oscillatorquantum-mechanicsschrodinger-equationwavefunction-visualisation

isadays/VisualDataAnalysis

Python scripts using the Visualization Toolkit (VTK) and Topology ToolKit (TTK) libraries. Tasks: visualize and explore topological features of a 3D volume and 2D scalar field datasets. 1. Probability density for the 3d electron position in a hydrogen atom and 2. 2D scalar field.

HTML00Updated 2 years ago

critical-pointshydrogen-atomtopological-data-analysisttkvtk-library

andrebuilds/simulating-atom

Interactive hydrogen atom physics simulators built with C++ (OpenGL/GLFW) and Python, featuring Bohr model orbitals, wave-particle interactions, 3D ray tracing, and real-time Schrödinger equation visualization.

C++00Updated 2 days ago

bohr-modelhydrogen-atomopenglphysics-simulationquantum-mechanicsschrodinger-equation

hitthecodelabs/QuantumMechanicsVisualized

Functions to calculate and visualize the probability density of hydrogen atom orbitals

Jupyter Notebook00Updated 2 years ago

hydrogen-atomphysicsquantum-mechanics

nasjp/Practicing-Deep-Learning-From-Scratch

Practice Deep Learning From Scratch

Python01Updated 7 years ago

deep-learninghydrogen-atommachine-learningpython3

TrustPaddy/quantum-trajectories

Browser-based 3D atom simulator with quantum trajectories from Yang's QHJ formalism. Explore orbital shapes, shell structure, and selection rules interactively.

JavaScript00Updated 5 days ago

3d-visualizationaframeatomic-physicscomputational-physicseducationalhamilton-jacobihydrogen-atominteractive-simulationphysics-simulationquantum-mechanicsquantum-trajectoriesthreejs