Quantum Mechanics of Infrared Spectroscopy - Maple Application Center
Application Center Applications Quantum Mechanics of Infrared Spectroscopy

Quantum Mechanics of Infrared Spectroscopy

: Miah Turke
Engineering software solutions from Maplesoft
This Application runs in Maple. Don't have Maple? No problem!
 Try Maple free for 15 days!
Infrared Spectroscopy is an incredibly versatile experimental technique that allows us to gather structural information about gaseous, liquid, or solid samples. While interpreting IR spectra is a basic practice in any undergraduate chemistry curriculum, understanding the theory requires a deeper grasp of the principles of quantum mechanics. Here we will explore the fundamental quantum mechanics that allows us to understand how IR spectroscopy works, and we will then take a deeper dive into more advanced topics that connect the theory and practice of IR spectroscopy.This worksheet uses the Maple Quantum Chemistry Toolbox.

Application Details

Publish Date: March 16, 2020
Created In: Maple 2019
Language: English

More Like This

Matrix Representation of Quantum Entangled States: Understanding Bell's Inequality and Teleportation
Exchange-Correlation Functionals: GGA vs. Meta-GGA
Quantum Mechanics: Schrödinger vs Heisenberg picture
Black Hole Quantum Mechanics: A Very Short Introduction
The Landau criterion for Superfluidity
The Gross-Pitaevskii equation and Bogoliubov spectrum
Ground state of a quantum system of identical boson particles
Quantum Mechanics for Chemistry