2019 Lecture Materials

Summary Schedule

Detailed Schedule

 

Lecture Notes and Materials

 

Jun Zhu

Introduction

School Summary

 

Dale Van Harlingen

Lecture 1

Lecture 2

 

Sergey Frolov

Lecture 1

Lecture 2

Background Materials

 

Mikael Rechtsman

Lectures 1 and 2 

 

Katja Nowack

Lecture Notes

Background Materials:

The SQUID Handbook

Gradiometric micro-SQUID susceptometer

SQUID on a Tip

Thermal Imaging I

Thermal Imaging II

SQUID and FIB Microstructures

SQUID and HgTe Quantum Wells

 

Nitin Samarth

Lecture 1

Lecture 2 part 1

Lecture 2 part 2

 

Evelyn Hu

Lecture 1

Lecture 2

Relevant Papers:

1.  Optical microcavities

2.  Quantum nature of a strongly coupled single quantum dot–cavity system

3.  Quantum computing with defects

4.  Selective Purcell enhancement of two closely linked zero-phonon transitions of a silicon carbide color center

5.  Cavity Quantum Electrodynamics

 

Jay Sau

Background Information 

 

 

James Hone

 

Scott Crooker

Lecture 1

Lecture 2

Background Materials:

van der Waals Heterostructures

Why all the Fuss about 2D Semiconductors?

Spins and Pseudospins in TMDs

Light-Valley Interactions in 2D Semiconductors 

 

 

 

Steven Vitale

Background Information 

Lecture Notes

 

Jonathan Sun

Background Reading:

Spin-transfer torque switched magnetic tunnel junctions in magnetic random access memory

Physical Principles of Spin Torque

A new spin on magnetic memories

 

Joe Broz

QED-C

 

Ania Jayich

 

Open Lab Visit Information

Lab Descriptions

Hands-on Schedule

 

QS3 Organizers

Active Learning 1

Active Learning 2

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