Video catalog

Included in this catalog are videos of PARADIM lectures and tutorials presented through Education and Outreach Summer School programs.  All videos are housed in Cornell Video On Demand.

2016 Summer School
Welcome and Introductions to 2016 summer school Tyrel M. McQueen and Facility Staff
History and Status of Crystal Growth and Its Applications Prof. Robert S. Feigelson
Modeling of Bulk Crystal Growth Processes (1 of 3) Prof. Jeffrey J. Derby
Modeling of Bulk Crystal Growth Processes (2 of 3) Prof. Jeffrey J. Derby
Modeling of Bulk Crystal Growth Processes (3 of 3) Prof. Jeffrey J. Derby
Crystal Growth of Materials (1 of 3) Dr. Geetha Balakrishnan
Characterization of Defects in Materials (1 of 3) Prof. Michael Dudley
Crystal Growth of Materials (2 of 3) Dr. Geetha Balakrishnan
Characterization of Defects in Materials (2 of 3) Prof. Michael Dudley
Crystal Growth of Materials (3 of 3) Dr. Geetha Balakrishnan
Characterization of Defects in Materials (3 of 3) Prof. Michael Dudley
Rational Materials Design Prof. Tyrel M. McQueen
2017 Summer School
Welcome and Introductions to 2017 summer school Tyrel M. McQueen and W. Adam Phelan
The Science of Quantum Materials Discovery Facility Staff
Perspectives on Topological Materials Facility Staff
Lectures on theory of topology (1 of 2) David Vanderbilt
Lectures on theory of topology (2 of 2) David Vanderbilt
Lectures on experimental signatures of topology (1 of 2) [slides only, no audio] Joe Checkelsky
Lectures on experimental signatures of topology (2 of 2) [slides only, no audio] Joe Checkelsky
Lectures on design and synthesis of topological materials (1 of 2) Leslie Schoop
Lectures on design and synthesis of topological materials (2 of 2) Leslie Schoop
Lectures on real-space topology (Skyrmions, 1 of 2) Geoff Beach
Lectures on real-space topology (Skyrmions, 2 of 2) Geoff Beach
ARPES and Topology Kyle Shen
Transport and topology Lu Li
2018 Summer School
Welcome and Introductions to 2018 sumer school W. Adam Phelan
Synthesis of Magnetic Pyrochlores Bruce Gaulin
Neutron Spectroscopy of Magnetic Pyrochlores (No Video Available)  Bruce Gaulin
Synthetic Methods for Quantum Materials Tyrel M. McQueen
The PARADIM Data Collective David Elbert
Synthesis and Discovery of Quantum Spin Liquid Candidates Young Lee
Spectroscopy of Quantum Spin Liquid Candidates Young Lee
Theoretical Aspects of Quantum Magnetism (1 of 2) Oleg Tchernyshyov
Theoretical Aspects of Quantum Magnetism (2 of 2) Oleg Tchernyshyov
Towards Theoretical Spectroscopy and Theory Assisted Material Design (1 of 2) Gabi Kotliar
Towards Theoretical Spectroscopy and Theory Assisted Material Design (2 of 2) Gabi Kotliar
Frontiers of Quantum Magnetism Theory Gang Chen
Metallic Quantum Magnets and Quantum Criticality Satoru Nakatsuji
Transport Physics of Quantum Magnets Satoru Nakatsuji
2017 Summer School @ Cornell
Intro to TEM  David Muller, Cornell University
Linear Imaging Theory  Robert Hovden, University of Michigan
Ronchigrams  Peter Ercius, Lawerence Berkley Lab
Intro to EELS - Part 1  Paolo Longo, Gatan, Inc.
Intro to EELS - Part 2  Paolo Longo, Gatan, Inc.
Core loss EELS  Lena Kourkoutis, Cornell University
Core loss EELS simulations  Frank de Groot, Utrecht University
Low loss EELS David Muller, Cornell University
Tomography Theory  Peter Ercius,, Lawerence Berkley Lab
Practical Tomography Robert Hovden, University of Michigan
Diffractive Imaging - Part 1  David Muller, Cornell University
Diffractive Imaging - Part 2 David Muller, Cornell University
Electron Microscopy Workshops - A historical perspective John Silcox, Cornell University
PARADIM Data Collective
Bring the Analysis to the Data David Elbert
2016 PARADIM Summer School
Density Functional Theory Lectures                                    (Dr. Feliciano Giustino)
1.1) DFT: An introduction (Ab initio) to materials modelling Lecture 1.1
1.2) Schrodinger equation and mean-field approximation - Lecture 1.2
2.1) DFT: Density Functional Theory - Lecture 2.1
2.2) Plane Waves and Pseudopotentials - Lecture 2.2
3.1) Equilibrium structures of materials - Lecture 3.1
3.2) Elastic properties of materials - Lecture 3.2
4.1) DFT: Meaning of band structures - Lecture 4.1
4.2) IR spectra & dielectric constants - Lecture 4.2
5.1) Band structures & optical spectra - Lecture 5.1
5.2) Limitations of DFT and post-DFT methods- Lecture 5.2
Density Functional Theory Hands-on tutorials             (Dr. Feliciano Giustino)
1.1 Connecting to MARCC, basic Linux commands, and a test run
2.1 Equilibrium structure of a diatomic molecule and a bulk crystal
3.1 Automatic optimization of crystal structure and elastic constants
4.1 Phonon Dispersion
5.1 Band structure and visualization of Kohn-Sham wavefunctions
2018 PARADIM Summer School
Density Functional Theory Lectures  (Dr. Feliciano Giustino )
1.1) DFT: Ab initio Materials Modeling (Lecture 1.1)
1.2) DFT: Many Body Problem (Lecture 1.2)
2.1) DFT: Conceptual foundations of Density Functional Theory (Lecture 2.1)
2.2) DFT: Plane Waves and Pseudopotentials (Lecture 2.2)
3.1) DFT: Equilibrium structures (Lecture 3.1) 
3.2) DFT: Elastic Properties (Lecture 3.2) 
4.1) DFT: Phonons in Density Functional Theory (Lecture 4.1)
4.2) DFT: IR Spectra and Dielectric constants  (Lecture 4.2) 
5.1) DFT: Band Structure and Optical Spectra (Lecture  5.1)
5.2) DFT: Limitations of Density Functional Theory (DFT) and post-DFT methods (Lecture 5.2) 
Density Functional Theory Hands-on Tutorials                (Dr. Feliciano Giustino / Dr Betul Pamuk )
DFT:Basic Linux commands, compilation of the Quantum Espresso package, and an example Si calculation (Tutorial 1.1) (Giustino)
DFT: Equilibrium structure and binding energy of a diatomic molecule Cl2 (Tutorial 2.1)  (Giustino)
DFT: Automatic optimization of atomic coordinates of Cl2 and unit cell of graphite, elastic constants of diamond (Tutorial 3.1) (Pamuk)
DFT: Stretching frequency of a diatomic molecule Cl2, phonon dispersion relations of diamond, and LO-TO splitting, IR activity, and dielectric constant of GaAs (4.1 Tutorial) (Pamuk)
DFT:Band structure, and visualizing Kohn-Sham wavefunctions of Si, and calculation of UV/Vis spectra of GaAs (Tutorial 5.1) (Pamuk)
KEY
  Bulk Crystal Growth   Collaboration   Data Collective   Density Functional Theory   Microscopy
   
Presenter Presentation
Balakrishnan, Geetha (University of Warwick, UK) Crystal Growth of Materials (1 of 3)
Balakrishnan, Geetha (University of Warwick, UK) Crystal Growth of Materials (2 of 3)
Balakrishnan, Geetha (University of Warwick, UK) Crystal Growth of Materials (3 of 3)
Beach, Geoff (Massachusetts Institute of Technology) Lectures on real-space topology (Skyrmions, 1 of 2)
Beach, Geoff (Massachusetts Institute of Technology) Lectures on real-space topology (Skyrmions, 2 of 2)
Checkelsky, Joe (Massachusetts Institute of Technology) Lectures on experimental signatures of topology (1 of 2) [slides only, no audio]
Checkelsky, Joe (Massachusetts Institute of Technology) Lectures on experimental signatures of topology (2 of 2) [slides only, no audio]
Chen, Gang (Fudan University, Shanghai, China) Frontiers of Quantum Magnetism Theory
de Groot, Frank  (Utrecht University) Core loss EELS simulations 
Derby,  Jeffrey J. (University of Minnesota) Modeling of Bulk Crystal Growth Processes (1 of 3)
Derby,  Jeffrey J. (University of Minnesota) Modeling of Bulk Crystal Growth Processes (2 of 3)
Derby,  Jeffrey J. (University of Minnesota) Modeling of Bulk Crystal Growth Processes (3 of 3)
Dudley, Michael (Stony Brook University) Characterization of Defects in Materials (1 of 3)
Dudley, Michael (Stony Brook University) Characterization of Defects in Materials (2 of 3)
Dudley, Michael (Stony Brook University) Characterization of Defects in Materials (3 of 3)
Elbert, David (Johns Hopkins University) The PARADIM Data Collective
Elbert, David (Johns Hopkions University) The PARADIM Data Collective
Ercius, Peter  (Lawerence Berkley Lab) Ronchigrams 
Ercius, Peter  (Lawerence Berkley Lab) Tomography Theory 
Feigelson, Robert S. (Stanford University) History and Status of Crystal Growth and Its Applications
Gaulin, Bruce (McMasters University) Synthesis of Magnetic Pyrochlores
Gaulin, Bruce (McMasters University) Neutron Spectroscopy of Magnetic Pyrochlores (No Video Available) 
Giustino, Feliciano (Oxford University) 1.1) DFT: An introduction (Ab initio) to materials modelling Lecture 1.1
Giustino, Feliciano (Oxford University) 1.2) Schrodinger equation and mean-field approximation - Lecture 1.2
Giustino, Feliciano (Oxford University) 2.1) DFT: Density Functional Theory - Lecture 2.1
Giustino, Feliciano (Oxford University) 2.2) Plane Waves and Pseudopotentials - Lecture 2.2
Giustino, Feliciano (Oxford University) 3.1) Equilibrium structures of materials - Lecture 3.1
Giustino, Feliciano (Oxford University) 3.2) Elastic properties of materials - Lecture 3.2
Giustino, Feliciano (Oxford University) 4.1) DFT: Meaning of band structures - Lecture 4.1
Giustino, Feliciano (Oxford University) 4.2) IR spectra & dielectric constants - Lecture 4.2
Giustino, Feliciano (Oxford University) 5.1) Band structures & optical spectra - Lecture 5.1
Giustino, Feliciano (Oxford University) 5.2) Limitations of DFT and post-DFT methods- Lecture 5.2
Giustino, Feliciano (Oxford University) 1.1 Connecting to MARCC, basic Linux commands, and a test run
Giustino, Feliciano (Oxford University) 2.1 Equilibrium structure of a diatomic molecule and a bulk crystal
Giustino, Feliciano (Oxford University) 3.1 Automatic optimization of crystal structure and elastic constants
Giustino, Feliciano (Oxford University) 4.1 Phonon Dispersion
Giustino, Feliciano (Oxford University) 5.1 Band structure and visualization of Kohn-Sham wavefunctions
Giustino, Feliciano (Oxford University) 1.1) DFT: Ab initio Materials Modeling (Lecture 1.1)
Giustino, Feliciano (Oxford University) 1.2) DFT: Many Body Problem (Lecture 1.2)
Giustino, Feliciano (Oxford University) 2.1) DFT: Conceptual foundations of Density Functional Theory (Lecture 2.1)
Giustino, Feliciano (Oxford University) 2.2) DFT: Plane Waves and Pseudopotentials (Lecture 2.2)
Giustino, Feliciano (Oxford University) 3.1) DFT: Equilibrium structures (Lecture 3.1) 
Giustino, Feliciano (Oxford University) 3.2) DFT: Elastic Properties (Lecture 3.2) 
Giustino, Feliciano (Oxford University) 4.1) DFT: Phonons in Density Functional Theory (Lecture 4.1)
Giustino, Feliciano (Oxford University) 4.2) DFT: IR Spectra and Dielectric constants  (Lecture 4.2) 
Giustino, Feliciano (Oxford University) 5.1) DFT: Band Structure and Optical Spectra (Lecture  5.1)
Giustino, Feliciano (Oxford University) 5.2) DFT: Limitations of Density Functional Theory (DFT) and post-DFT methods (Lecture 5.2) 
Giustino, Feliciano (Oxford University) DFT:Basic Linux commands, compilation of the Quantum Espresso package, and an example Si calculation (Tutorial 1.1) (Giustino)
Giustino, Feliciano (Oxford University) DFT: Equilibrium structure and binding energy of a diatomic molecule Cl2 (Tutorial 2.1)  (Giustino)
Goncalo, Jack  (University Illinois) Biases and Idea Recognition
Goncalo, Jack  (University Illinois) Communicating Creative Ideas
Goncalo, Jack  (University Illinois) Communicating Creative Ideas (lecture starts at 27:05)
Goncalo, Jack  (University Illinois) Managing and Leveraging Conflict
Goncalo, Jack  (University Illinois) Managing and Leveraging Conflict
Goncalo, Jack  (University Illinois) Sharing knowledge in interdisciplinary teams
Goncalo, Jack  (University Illinois) Managing and Leveraging Conflict (JHU)
Goncalo, Jack  (University Illinois) Communicating Creative Ideas  (JHU)
Goncalo, Jack  (University Illinois) Sharing Knowledge in Interdisciplinary Teams  (JHU)
Goncalo, Jack  (University Illinois) Biases and Idea Recognition  (JHU)
Hovden, Robert  (University of Michigan) Linear Imaging Theory 
Hovden, Robert  (University of Michigan) Practical Tomography
Kotliar, Gabi  (Brookhaven Labs) Towards Theoretical Spectroscopy and Theory Assisted Material Design (1 of 2)
Kotliar, Gabi  (Brookhaven Labs) Towards Theoretical Spectroscopy and Theory Assisted Material Design (2 of 2)
Kourkoutis, Lena  (Cornell University) Core loss EELS 
Lee, Young (Stanford University) Synthesis and Discovery of Quantum Spin Liquid Candidates
Lee, Young (Stanford University) Spectroscopy of Quantum Spin Liquid Candidates
Li, Lu (University of Michigan) Transport and topology
Longo, Paolo  (Gatan, Inc.) Intro to EELS - Part 1 
Longo, Paolo  (Gatan, Inc.) Intro to EELS - Part 2 
McQueen, Tyrel M. (Johns Hopkins Univeristy)  Welcome and Introductions to 2016 summer school
McQueen, Tyrel M. (Johns Hopkins Univeristy)  Rational Materials Design
McQueen, Tyrel M. (Johns Hopkins Univeristy)  Welcome and Introductions to 2017 summer school
McQueen, Tyrel M. (Johns Hopkins Univeristy)  Synthetic Methods for Quantum Materials
Muller, David  (Cornell University) Intro to TEM 
Muller, David  (Cornell University) Low loss EELS
Muller, David  (Cornell University) Diffractive Imaging - Part 1 
Muller, David  (Cornell University) Diffractive Imaging - Part 2
Nakatsuji, Satoru (University of Tokyo) Metallic Quantum Magnets and Quantum Criticality
Nakatsuji, Satoru (University of Tokyo) Transport Physics of Quantum Magnets
Pamuk, Betul (Cornell University) DFT: Automatic optimization of atomic coordinates of Cl2 and unit cell of graphite, elastic constants of diamond (Tutorial 3.1) (Pamuk)
Pamuk, Betul (Cornell University) DFT: Stretching frequency of a diatomic molecule Cl2, phonon dispersion relations of diamond, and LO-TO splitting, IR activity, and dielectric constant of GaAs (4.1 Tutorial) (Pamuk)
Pamuk, Betul (Cornell University) DFT:Band structure, and visualizing Kohn-Sham wavefunctions of Si, and calculation of UV/Vis spectra of GaAs (Tutorial 5.1) (Pamuk)
Phelan, W. Adam (Johns Hoplins University) The Science of Quantum Materials Discovery
Phelan, W. Adam (Johns Hoplins University) Perspectives on Topological Materials
Phelan, W. Adam (Johns Hoplins University) Welcome and Introductions to 2018 sumer school
Schoop, Leslie (Princeton University) Lectures on design and synthesis of topological materials (1 of 2)
Schoop, Leslie (Princeton University) Lectures on design and synthesis of topological materials (2 of 2)
Shen, Kyle (Cornell University) ARPES and Topology
Silcox, John  (Cornell University) Electron Microscopy Workshops - A historical perspective
Tchernyshyov, Oleg (Columbia University) Theoretical Aspects of Quantum Magnetism (1 of 2)
Tchernyshyov, Oleg (Columbia University) Theoretical Aspects of Quantum Magnetism (2 of 2)
Vanderbilt, David (Rutgers University) Lectures on theory of topology (1 of 2)
Vanderbilt, David (Rutgers University) Lectures on theory of topology (2 of 2)
Vincent, Lynne (Syracuse University) Teambuilding collaborative skills 
Vincent, Lynne (Syracuse University) Effective collaboration (1 of 2) [slides only, no audio]
Vincent, Lynne (Syracuse University) Effective collaboration (2 of 2) [slides only, no audio]
Vincent, Lynne (Syracuse University) Lectures on effective collaboration (1 of 3)
Vincent, Lynne (Syracuse University) Team building collaborative skills 
Vincent, Lynne (Syracuse University) Lectures on effective collaboration (1 of 3)  (JHU)
Vincent, Lynne (Syracuse University) Lectures on effective collaboration (3 of 3) [Slides Only  (JHU) 
Vincent, Lynne C. (Syracuse University) Lectures on effective collaboration (1 of 3) [slides only, no audio]
Vincent, Lynne C. (Syracuse University) Lectures on effective collaboration (2 of 3) [slides only, no audio]
Vincent, Lynne C. (Syracuse University) Lectures on effective collaboration (3 of 3)