40:57

DFT (Lecture 12): van der Waals corrections

47:16

DFT (Lecture 11): Meta-GGA and Hybrid functionals

29:58

DFT (Lecture 10): GGA, the General Gradient Approximation

29:27

DFT (Technical 1): About basis sets

40:23

DFT (Lecture 9): The DFT band-gap problem

48:13

DFT (Lecture 8): The Local Density Approximation (LDA)

41:06

DFT (Lecture 7): Kohn-Sham Theory

35:09

DFT (Lecture 6): The Thomas-Fermi Functional

32:59

DFT (Lecture5 (2/2)): The fundamental theorems of DFT

18:45

DFT (Lecture5 (1/2)): The fundamental theorems of DFT

38:03

DFT (Lecture 4): The Hartree-Fock method (many-electrons)

23:36

DFT (Lecture 3 (2/2)): Two electrons

27:26

DFT (Lecture 3 (1/2)): Two electrons

23:37

DFT (Lecture 2 (2/2)): The single-electron problem

28:31

DFT (Lecture 2 (1/2)): The single electron problem

31:01

Math Bonus: Functional Derivatives

36:21

What is entropy? (for non-scientists)

15:47

MoS2: Irreducible representations (phonons)

31:03

V2 (corrected) Graphene: Finding irreducible representations (phonons)

30:52

V1: Graphene: Finding irreducible representations (phonons)

21:33

DFT (Lecture 1 (2/2)): What are we trying to solve anyway?

21:59

DFT (Lecture 1 (1/2)): what are we trying to solve anyway?

14:33

DFT (lecture 0): Setting the stage

08:20

Raman Polarization: Application to D3d

29:10

Raman Polarization: Tutorial 2/2

17:45

Raman Polarization: Tutorial 1/2

03:02

ASI Welcome July 12, 2023

41:10

Basic Introduction to Raman Spectroscopy (Part II, applications)

56:03

Basic Introduction to Raman Spectroscopy (Part I: Fundamentals)

56:11

Understanding sputtering in 2D materials by transmission electron microscopy

51:44

How to prepare for an on-site interview (junior faculty) in a university?

39:42

Classification of 2D Carbon Allotropes

02:51

Carbon Trends Presentation (06/2022)

31:26

Wave Equation: part 11 (Separation of the solution)

15:51

Coupled Oscillations: part 10 (General Solution of the Wave Equation)

14:06

Coupled Oscillations: part 9 (The Wave Equation)

14:08

Coupled Oscillations: part 8 (Conservation of total energy)

19:14

Coupled Oscillations: part 7 (Loaded string: continuous limit)

24:29

Coupled Oscillations: part 6 (Loaded string)

29:53

Coupled Oscillations: part 5 (molecular vibrations)

27:51

Coupled Oscillations: part 4 (normal coordinates)

11:44

Coupled Oscillations: part 1 (simple introductory example)

27:47

Coupled Oscillations: part 2 (general formalism)

08:14

Coupled Oscillations: part 3 (normalization equation)

28:45

Chapter 3: Angular momentum, part 2

20:03

Driven Oscillator

24:30

Damped Oscillator

17:36

Foucault Pendulum

15:52

Lagrange Multiplier

51:00

Art of effective science presentations

01:05:49

DFT : theoretical introduction (part 2)

01:16:57

DFT : theoretical introduction (part 1)

15:01

Vibrational Properties of 1D Carbon Nanostructures from First-Principles (MRS 2020)

29:46

Lattice dynamics in low-angle twisted bilayer graphene (GO2021)

50:48

Lecture 15: Entropy of Information

01:04:30

Lecture 37: Earth Atmosphere

01:21:00

Lecture 30: Quantum gas

53:32

Lecture 29: Fermi-Dirac and Bose-Einstein

29:10

Lecture 28b: Ising model

01:28:39

Lecture 28: Phase transitions