© Alejandro Strachan – Online simulations: electronic structure of oxygen Online simulations via nanoHUB: Exchange interaction in Oxygen In this tutorial:

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Presentation transcript:

© Alejandro Strachan – Online simulations: electronic structure of oxygen Online simulations via nanoHUB: Exchange interaction in Oxygen In this tutorial: Setup DFT simulation for an oxygen atom Explore how the total spin affects total energy Quantify exchange energy Nicolas Onofrio and Ale Strachan School of Materials Engineering & Birck Nanotechnology Center Purdue University West Lafayette, Indiana USA 1

STEP 1: launch the ORCAtool © Alejandro Strachan – Online simulations: electronic structure of oxygen From your My dashboard page launch ORCAtool From All Tools find: orca Launch tool by clicking on: OR open the tool’s main page and launch the tool by clicking on: 2

STEP 2: setup the basic input © Alejandro Strachan – Online simulations: electronic structure of oxygen 3 We will select a geometry optimization with the H2 molecule pre-build case and modify it Turn ON the advanced Options in order to have access to the simulation details Start from the pre-built H2 molecule

STEP 3: setup the geometry and spin state © Alejandro Strachan – Online simulations: electronic structure of oxygen 4 From the Geometric Input tab Select Cartesian coordinates For the Spin 1 (triplet): total spin S = 1, here you input the spin as 2*S + 1 = 3 Only 1 Oxygen atom at position 0.0, 0.0, 0.0 (type, x, y, z) do not use tabs For the Spin 0 (singlet): total spin S = 0, 2*S + 1 = 1

STEP 4: setup the simulation details and run! © Alejandro Strachan – Online simulations: electronic structure of oxygen 5 From the Energy Expression tab Select density functional theory method (DFT) with the exchange correlation potential B3LYP and the basis set SVP We only have 1 atom so we don’t need to optimize the geometry Click simulate And wait for the results (a minute or so)

STEP 5: analyze total energy © Alejandro Strachan – Online simulations: electronic structure of oxygen Select Total Converged Energy from the output drop-down menu (Here 1 step = no geometry optimization, only SCF) The total energy is: kcal/mol 6 OR from the Output Log, scroll down to the end you will find the total energy under FINAL SINGLE POINT ENERGY (Hartree)

STEP 6: Report © Alejandro Strachan – Online simulations: electronic structure of oxygen What is the energy difference between the spin 1 and spin 0 states? How large is this compared to a bond energy or the electron binding energy in hydrogen? Explain the physics behind the energy difference 7