Advanced Topics in Quantum Sciences and Technologies

PHYS-744

Media

PHYS-744 Quantum Science and Technology

13, Lecture 13 - Stochastic numerical methods for many-body quantum systems - G. Carleo/F. Vincentini

11.12.2020, 13:32

12, Lecture 12/B - Stochastic numerical methods for many-body quantum systems - G. Carleo

04.12.2020, 15:19

12, Lecture 12/A - Stochastic numerical methods for many-body quantum systems - G. Carleo

04.12.2020, 14:11

11, Lecture 11 - Hybrid superconducting / quantum dot circuits - P. Scarlino

27.11.2020, 13:41

10, Lecture 10 - Quantum Simulation with Cold Atoms - JP. Brantut

20.11.2020, 13:45

9, Lecture 9 - Quantum Metrology with Atoms in a Cavity - N. Englesen

13.11.2020, 14:12

8, Lecture 8 - Part 3 (partial) - Quantum Metrology - P. Treutlein

06.11.2020, 13:58

8, Lecture 8 - Part 2 - Quantum Metrology - P. Treutlein

06.11.2020, 13:57

8, Lecture 8 - Part 1 - Quantum Metrology - P. Treutlein

06.11.2020, 13:56

7, Lecture 7 - Part 2 - Quantum Sensing with single spins - P. Maletinsky

30.10.2020, 19:25

7, Lecture 7 - Part 1 - Quantum Sensing with single spins - P. Maletinsky

30.10.2020, 19:23

6, Lecture 6 - Part 4 - Intro to Quantum Sensing - M. Chipaux

23.10.2020, 14:02

6, Lecture 6 - Part 3 - Intro to Quantum Sensing - C. Galland

23.10.2020, 14:01

6, Lecture 6 - Part 2 - Intro to Quantum Sensing - C. Galland

23.10.2020, 13:59

6, Lecture 6 - Part 1 - Intro to Quantum Sensing - C. Galland

23.10.2020, 13:58

5, Lecture 5 - Part 3 - Intro to Quantum Sensing - C. Galland

16.10.2020, 17:32

5, Lecture 5, Part 2 - Intro to Quantum Sensing - C. Galland

16.10.2020, 17:31

5, Lecture 5, Part 1 - Intro to Quantum Sensing - C. Galland

16.10.2020, 17:28

4, Lecture 4, Part 3 - Anyons - M. Banerjee

09.10.2020, 13:42

4, Lecture 4, Part 2 - Anyons - M. Banerjee

09.10.2020, 13:41

3, Lecture 3, Part 3 - Quantum Transport - G. Haack

02.10.2020, 16:06

3, Lecture 3, Part 2 - Quantum Transport - G. Haack

02.10.2020, 16:00

3, Lecture 3, Part 1 - Quantum Transport - G. Haack

02.10.2020, 15:55

2, Lecture 2, Part 2 - Theory of Open Quantum Systems - V. Savona

25.09.2020, 12:22

2, Lecture 2, Part 1 - Theory of Open Quantum Systems - V. Savona

25.09.2020, 12:21

1, Lecture 1, Part 3 - Theory of Open Quantum Systems - V. Savona

23.09.2020, 15:50

1, Lecture 1, Part 2 - Theory of Open Quantum Systems - V. Savona

23.09.2020, 15:48

1, Lecture 1, Part 1 - Theory of Open Quantum Systems - V. Savona

23.09.2020, 15:47


Media

PHYS-744 Quantum Science and Technology

13, Lecture 13 - Stochastic numerical methods for many-body quantum systems - G. Carleo/F. Vincentini

11.12.2020, 13:32

12, Lecture 12/B - Stochastic numerical methods for many-body quantum systems - G. Carleo

04.12.2020, 15:19

12, Lecture 12/A - Stochastic numerical methods for many-body quantum systems - G. Carleo

04.12.2020, 14:11

11, Lecture 11 - Hybrid superconducting / quantum dot circuits - P. Scarlino

27.11.2020, 13:41

10, Lecture 10 - Quantum Simulation with Cold Atoms - JP. Brantut

20.11.2020, 13:45

9, Lecture 9 - Quantum Metrology with Atoms in a Cavity - N. Englesen

13.11.2020, 14:12

8, Lecture 8 - Part 3 (partial) - Quantum Metrology - P. Treutlein

06.11.2020, 13:58

8, Lecture 8 - Part 2 - Quantum Metrology - P. Treutlein

06.11.2020, 13:57

8, Lecture 8 - Part 1 - Quantum Metrology - P. Treutlein

06.11.2020, 13:56

7, Lecture 7 - Part 2 - Quantum Sensing with single spins - P. Maletinsky

30.10.2020, 19:25

7, Lecture 7 - Part 1 - Quantum Sensing with single spins - P. Maletinsky

30.10.2020, 19:23

6, Lecture 6 - Part 4 - Intro to Quantum Sensing - M. Chipaux

23.10.2020, 14:02

6, Lecture 6 - Part 3 - Intro to Quantum Sensing - C. Galland

23.10.2020, 14:01

6, Lecture 6 - Part 2 - Intro to Quantum Sensing - C. Galland

23.10.2020, 13:59

6, Lecture 6 - Part 1 - Intro to Quantum Sensing - C. Galland

23.10.2020, 13:58

5, Lecture 5 - Part 3 - Intro to Quantum Sensing - C. Galland

16.10.2020, 17:32

5, Lecture 5, Part 2 - Intro to Quantum Sensing - C. Galland

16.10.2020, 17:31

5, Lecture 5, Part 1 - Intro to Quantum Sensing - C. Galland

16.10.2020, 17:28

4, Lecture 4, Part 3 - Anyons - M. Banerjee

09.10.2020, 13:42

4, Lecture 4, Part 2 - Anyons - M. Banerjee

09.10.2020, 13:41

3, Lecture 3, Part 3 - Quantum Transport - G. Haack

02.10.2020, 16:06

3, Lecture 3, Part 2 - Quantum Transport - G. Haack

02.10.2020, 16:00

3, Lecture 3, Part 1 - Quantum Transport - G. Haack

02.10.2020, 15:55

2, Lecture 2, Part 2 - Theory of Open Quantum Systems - V. Savona

25.09.2020, 12:22

2, Lecture 2, Part 1 - Theory of Open Quantum Systems - V. Savona

25.09.2020, 12:21

1, Lecture 1, Part 3 - Theory of Open Quantum Systems - V. Savona

23.09.2020, 15:50

1, Lecture 1, Part 2 - Theory of Open Quantum Systems - V. Savona

23.09.2020, 15:48

1, Lecture 1, Part 1 - Theory of Open Quantum Systems - V. Savona

23.09.2020, 15:47


This file is part of the content downloaded from Advanced Topics in Quantum Sciences and Technologies.
Course summary

Advanced Topics in Quantum Science and Technology

All lectures will take place in room: PH H3 33
and will last about 4 x 45 min.

This course provides an in-depth treatment of the latest experimental and theoretical topics in quantum sciences and technologies, including for example quantum sensing, quantum optics, cold atoms, theory of quantum measurements and open dissipative quantum systems, etc.

Lecture 1: Mayeul Chipaux

Introduction to Quantum sensing and metrology

• Sensing using individual or ensemble of quantum objects: photons, ions or atoms, superconducting devices, point defects in solids...

Lectures 2-7 : Nicolas Sangouard

Quantum communications

Special course: different schedule! Same room: PH H3 33
  • Monday October 17th  from 14:00 to 17:30 
  • Tuesday October 18th from 8:30 to 12:00 
  • Monday October 24th from 14:00 to 17:30 
  • Tuesday October 25th from 8:30 to 12:00
  • Monday October 31st from 14:00 to 17:30 
  • Tuesday November 1st from 8:30 to 12:00
This lecture series are given by prof. Nicolas Sangouard, PI of Quantum Information Theory group at CEA Saclay. A last optional lecture will terminate the series on November 7th.

Lectures 8-9 : Cornelius Hempel

Quantum information processing with trapped ions

  • Friday October 28th  from 9:15 to 12:45 
  • Friday November 4th  from 9:15 to 12:45
  • Friday November 11th  from 9:15 to 12:45
• Basic concepts of how to use trapped ions for quantum computing
• State of the art examples and the road to scale up to fault tolerant machines

Lectures 10-12 : Vladimir Manucharyan

Quantum mechanics of superconducting circuits

  • Friday November 18th  from 9:15 to 12:45
  • Friday November 25th  from 9:15 to 12:45
  • Friday December  2nd  from 9:15 to 12:45
• Circuit quantization and periodic table of superconducting artificial atoms (qubits)
• Quantum computing with superconducting qubits
• Extreme coupling regimes of QED and many-body simulations.



Lectures 13-14: Zoe Holmes

Quantum neural networks

  • Friday December  9th  from 9:15 to 12:45
  • Friday December 16th from 9:15 to 12:45
• introduction to quantum neural networks (QNNs) and some of their potential uses
• What makes a 'good' QNN? Expressibility and the barrier to trainability posed by barren plateaus

Week 14: Exam

Room PH H3 33, Friday 23rd Dec. morning

18/12 - Exam

Student (email address)        Article (letter)

jehyeok.ryu@epfl.ch              A

timo.zwettler@epfl.ch         B           

dinesh.pinto@epfl.ch            C

jun.wang@epfl.ch                  D

yikai.yang@epfl.ch                  E

longdi.zhu@epfl.ch                 F

jz.juo@epfl.ch                  G

lukas.powalla@epfl.ch           H

david.schlegel@epfl.ch         I

zheru.qiu@epfl.ch                  J

amirali.arabmoheghi@epfl.ch     K

sachin.verlekar@epfl.ch               L

valeria.vento@epfl.ch                  M