Small-Molecule Spectroscopy and Dynamics

Small-Molecule Spectroscopy and Dynamics

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The goal of this course is to illustrate the spectroscopy of small molecules in the gas phase: quantum mechanical effective Hamiltonian models for rotational, vibrational, and electronic structure; transition selection rules and relative intensities; diagnostic patterns and experimental methods for…

Robert Field

Aug 19, 2011 LATEST EPISODE
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53m AVG DURATION
38 EPISODES

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Latest episodes from Small-Molecule Spectroscopy and Dynamics

Faculty Introduction to 5.80, Fall 2008

Play Episode Listen Later Aug 19, 2011 4:17

Lecture 38: Laser double resonance studies II

Play Episode Listen Later Dec 6, 2010 50:45

studies lecture laser resonance

Lecture 37: Laser double resonance studies

Play Episode Listen Later Dec 6, 2010 40:59

studies lecture laser resonance

Lecture 36: CNPI Group Theory

Play Episode Listen Later Dec 6, 2010 54:40

lecture cnpi group theory

Lecture 35: Wavepacket dynamics II

Play Episode Listen Later Dec 6, 2010 52:25

lecture dynamics

Lecture 34: Wavepacket dynamics

Play Episode Listen Later Dec 6, 2010 61:01

lecture dynamics

Lecture 33: Vibronic coupling

Play Episode Listen Later Dec 6, 2010 56:01

lecture coupling

Lecture 31: Electronic spectra of polyatomic molecules

Play Episode Listen Later Dec 6, 2010 63:24

electronic lecture molecules spectra

Lecture 30: What is in a character table and how do we use it?

Play Episode Listen Later Dec 6, 2010 63:22

table character lecture

Lecture 29: A sprint through group theory

Play Episode Listen Later Dec 6, 2010 56:10

lecture sprint group theory

Lecture 28: Normal and local modes. High overtone spectra

Play Episode Listen Later Dec 6, 2010 53:36

local normal lecture modes spectra overtone

Lecture 27: Polyatomic vibrations IV: symmetry

Play Episode Listen Later Dec 6, 2010 53:14

lecture vibrations symmetry

Lecture 26: Polyatomic vibrations III: s-vectors and H2O

Play Episode Listen Later Dec 6, 2010 50:27

lecture vibrations vectors

Lecture 25: Polyatomic vibrations: normal mode calculations

Play Episode Listen Later Sep 10, 2009 58:30

normal lecture vibrations calculations

Lecture 24: Pure rotation spectra of polyatomic molecules

Play Episode Listen Later Sep 10, 2009 50:54

pure lecture rotation molecules spectra

Lecture 23: Asymmetric top

Play Episode Listen Later Sep 10, 2009 51:46

lecture asymmetric

Lecture 22: Rotation of polyatomic molecules I

Play Episode Listen Later Sep 10, 2009 57:56

lecture rotation molecules

Lecture 21: Construction of potential curves by the Rydberg-Klein-Rees method (RKR)

Play Episode Listen Later Sep 10, 2009 52:38

method construction lecture klein rees curves rydberg

Lecture 20: Transformations between basis sets: 3-j, 6-j, and Wigner-Eckart theorem

Play Episode Listen Later Sep 10, 2009 44:35

basis lecture transformations theorem eckart wigner

Lecture 19: Second-order effects

Play Episode Listen Later Sep 10, 2009 42:47

effects lecture

Lecture 18: Perturbations

Play Episode Listen Later Sep 10, 2009 59:43

Lecture 17: Hund's cases: Pi, Sigma examples

Play Episode Listen Later Sep 10, 2009 50:52

Lecture 16: Parity and e/f basis for Pi, Sigma

Play Episode Listen Later Sep 10, 2009 59:04

basis lecture sigma parity

Lecture 15: Pi and Sigma matrices

Play Episode Listen Later Sep 10, 2009 48:07

lecture sigma matrices

Lecture 13: Laser schemes for rotational assignment first lines for Omega prime and Omega two prime assignments

Play Episode Listen Later Sep 10, 2009 58:00

lines prime omega lecture laser schemes assignments rotational

Lecture 14: Definition of angular momenta and |A(alpha)M_A>; Evaluation of the rotational Hamiltonian

Play Episode Listen Later Sep 10, 2009 48:29

definition lecture evaluation angular rotational hamiltonian alpha m momenta

Lecture 12: Rotational assignment of diatomic electronic spectra I

Play Episode Listen Later Sep 10, 2009 62:02

electronic lecture assignment spectra rotational

Lecture 11: Pictures of spectra and notation

Play Episode Listen Later Sep 10, 2009 54:34

pictures lecture spectra notation

Lecture 9: The Born-Oppenheimer approach to transitions

Play Episode Listen Later Sep 10, 2009 56:36

transitions lecture oppenheimer

Lecture 10: The Born-Oppenheimer approach to transitions II

Play Episode Listen Later Sep 10, 2009 54:35

transitions lecture oppenheimer

Lecture 7: How to assign an atomic spectrum

Play Episode Listen Later Sep 10, 2009 60:47

lecture spectrum atomic assign

Lecture 8: The Born-Oppenheimer approximation

Play Episode Listen Later Sep 10, 2009 51:41

lecture oppenheimer approximation

Lecture 6: Many e- atoms

Play Episode Listen Later Sep 10, 2009 58:13

Lecture 5: Alkali and many e- atomic spectra

Play Episode Listen Later Sep 10, 2009 56:36

lecture atomic spectra alkali

Lecture 3: Building an effective hamiltonian

Play Episode Listen Later Sep 10, 2009 65:31

lecture hamiltonian

Lecture 4: Atoms: 1e- and alkali

Play Episode Listen Later Sep 10, 2009 63:03

lecture atoms alkali

Lecture 1: Matrices are useful in spectroscopic theory

Play Episode Listen Later Sep 10, 2009 64:13

theory lecture matrices

Lecture 2: Coupled harmonic oscillators: truncation of an infinite matrix

Play Episode Listen Later Sep 10, 2009 50:30

matrix infinite lecture coupled harmonic oscillators truncation

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