WORKSHOP ON QUANTUM HARDWARE-SOFTWARE SYSTEMS
QHS Lecture Series on Superconducting Phenomena and Electronics by Krzysztof Pomorski
QHS Webpage: [ https://www.youtube.com/@quantumhardwaresystems1390 ]
Lecture series webpage: [ https://researchseminars.org/seminar/QTech ]
Zoom connection: [ us06web.zoom.us/j/88089302788 ]
Lecture time: Saturdays, 14:00-15:30 of Warsaw time
Lectures from 2025-03-29 till 2025-06-14
Lecture topics
Lecture 1: Phenomenological introduction to superconductivity and superfluidity,
Lecture 2: Microscopic BCS theory of superconductivity,
Lecture 3: Essence of superconducting and superfluid Josephson effect,
Lecture 4: RCSJ model of Josephson effect and concept of washboard potential.
Lecture 5: Ginzburg-Landau model of Josephson effect.
Lecture 6: Bogoliubov-de Gennes model of Josephson effect.
Lecture 7: Different architectures of superconducting qubits.
Lecture 8: Implementation of artificial neural networks in Josephson junction systems.
Lecture 9: Rapid Single Quantum Flux Electronics and Adiabatic Flux parametron as implementations of classical computers in superconductors.
Lecture 10: Concept of hybrid classical-quantum mind in superconductor.
Literature
[1]. M.Tinkham, Introduction to Superconductivity, Dover Books on Physics, 2004.
( https://djena.engineering.cornell.edu/hws/7_tinkham_bcs.pdf )
[2]. H.Toepfer, T.Ortlepp, Design infrastructure for Rapid Single Flux Quantum circuits,
Cryogenics, Vol.49, Issue 11, 2009.
(https://www.sciencedirect.com/science/article/pii/S0011227509000381)
[3]. P. G. De Gennes, Superconductivity Of Metals And Alloys, 1999, Pub. Location: Boca Raton.
[4]. A.Szewczyk , Magnetyzm i nadprzewodnictwo, PWN, 2012.
[5]. J.Q.You, F.Nori, Superconducting Circuits and Quantum Information, Physics today, 2005.
[6]. K.Pomorski.R.B.Staszewski, P.Peczkowski, Analytical solutions for N interacting electron system confined in graph of coupled electrostatic semiconductor and superconducting quantum dots in tight-binding model, Cryogenics, Vol. 109, 2020.
The aim of the sessions is to connect people from various specialties related to and involved in the development of quantum technologies
meetings on-line: https://us06web.zoom.us/j/84670943849?pwd=uAuqWMwVp5rTqX0CNfaImAYn1XjNyn.1 Kod dostępu: 053613
CONTACT:
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NO FEE OR REGISTRATION REQUIRED
SESSIONS SHEDULE 2024:
Q-Tech 1 (19 Oct 2024, 11:00 - 13:00) - Emulator of Q-Gates by E.Halubek and K.Pomorski
Q-Tech 2 (26 Oct 2024, 11:00 - 13:00) - Quaternionic Representation of semiconductor single Electron devcices by W. Nowakowski, K.Pomorski and E.Halubek
Q-Tech 3 (9 Nov 2024, 11:00 - 13:00) - Electrostatically Interacting Wannier Qubits in Curved Space by K.Pomorski
Q-Tech 4 (23 Nov 2024, 11:00 - 12:00) - Path Integral Approach in Quantum Mechanics by Łukasz Stepien
Q-Tech 5 (30 Nov 2024, 11:00 - 12:00) - Strategy of integrated classical-quantum chips development in Poland by Krzysztof Pomorski [QHS, SGGW] - WIĘCEJ ➤
Q-Tech 6 (7 Dec 2024, 11:00 - 12:00) - Path Integral Approach in Quantum Mechanics (Part 2) by Łukasz Stepien
Q-Tech 7 (20 Dec 2024, 13:00 - 14:00) - Path Integral Approach in Quantum Mechanics (Part 3) by Łukasz Stepien
SESSIONS SHEDULE 2023:
– 24th November 2023 (Friday): PROGRAM ➤
– 1st December 2023 (Friday): PROGRAM ➤
– 8th December 2023 (Friday): PROGRAM ➤
NEXT SESSIONS TO BE ANNOUNCED
RECORDINGS:
- prof. Marek Danielewski, Quaternionic Description of Quantum Mechanics (opening talk of QHSS2023): YOUTUBE ➤
- Konrad Norowski, The fastest thermometer in the nanoworld: YOUTUBE ➤
DODATKOWE INFORMACJE : https://researchseminars.org/seminar/QHSS2023
YouTube: Quantum Hardware Systems: https://www.youtube.com/@quantumhardwaresystems1390