Suchergebnis: Lerneinheiten im Frühjahrssemester 2022

Quantum Engineering Master Information
Kernfächer
A minimum of 24 credits must be obtained from core courses during the MSc QE, course selection is subject to the tutor's agreement.
Engineering Core Courses
These core courses target students with a physics background and all those who need additional engineering foundations.
NummerTitelTypECTSUmfangDozierende
227-0159-00LSemiconductor Devices: Quantum Transport at the Nanoscale Information W6 KP2V + 2UM. Luisier, A. Emboras
227-0207-00LNonlinear Systems and Control Information
Voraussetzung: Control Systems (227-0103-00L)
W6 KP4GE. Gallestey Alvarez, P. F. Al Hokayem
227-0418-00LAlgebra and Error Correcting Codes Information W6 KP4GH.‑A. Loeliger
Physics Core Courses
These core courses target students with an engineering background and all those who need additional physics foundations.
NummerTitelTypECTSUmfangDozierende
402-0448-01LQuantum Information Processing I: Concepts
Dieser theoretisch ausgerichtete Teil QIP I bildet zusammen mit dem experimentell ausgerichteten Teil 402-0448-02L QIP II, die beide im Frühjahrssemester angeboten werden, im Master-Studiengang Physik das experimentelle Kernfach "Quantum Information Processing" mit total 10 ECTS-Kreditpunkten.
W5 KP2V + 1UP. Kammerlander
402-0448-02LQuantum Information Processing II: Implementations
Dieser experimentell ausgerichtete Teil QIP II bildet zusammen mit dem theoretisch ausgerichteten Teil 402-0448-01L QIP I, die beide im Frühjahrssemester angeboten werden, im Master-Studiengang Physik das experimentelle Kernfach "Quantum Information Processing" mit total 10 ECTS-Kreditpunkten.
W5 KP2V + 1UC. Eichler
402-0871-00LSolid State Theory
Studierende der UZH dürfen diese Lerneinheit nicht an der ETH belegen, sondern müssen das Modul PHY411 direkt an der UZH buchen.
W10 KP4V + 1UE. Demler
Wahlfächer
This is a selection of courses particularly suitable for the MSc QE. In agreement with the tutor, students may choose other courses from the ETH course catalogue.
NummerTitelTypECTSUmfangDozierende
227-0111-00LCommunication ElectronicsW6 KP2V + 2UT. Burger
227-0104-00LCommunication and Detection Theory Information W6 KP4GA. Lapidoth
227-0125-00LOptics and PhotonicsW6 KP2V + 2UJ. Leuthold
227-0147-00LVLSI 2: From Netlist to Complete System on Chip Information W6 KP5GF. K. Gürkaynak, L. Benini
227-0216-00LControl Systems II Information W6 KP4GR. Smith
227-0427-10LAdvanced Signal Analysis, Modeling, and Machine Learning Information W6 KP4GH.‑A. Loeliger
227-0434-10LMathematics of Information Information W8 KP3V + 2U + 2AH. Bölcskei
151-0966-00LIntroduction to Quantum Mechanics for EngineersW4 KP2V + 2UD. J. Norris
252-0220-00LIntroduction to Machine Learning Information Belegung eingeschränkt - Details anzeigen
Limited number of participants. Preference is given to students in programmes in which the course is being offered. All other students will be waitlisted. Please do not contact Prof. Krause for any questions in this regard. If necessary, please contact studiensekretariat@inf.ethz.ch
W8 KP4V + 2U + 1AA. Krause, F. Yang
263-4660-00LApplied Cryptography Information Belegung eingeschränkt - Details anzeigen
Number of participants limited to 150.
W8 KP3V + 2U + 2PK. Paterson
402-0206-00LQuantum Mechanics II
In 2022 the lectures will be held separately from UZH. A different class under the same name will be taught by a different lecturer at UZH.
W10 KP3V + 2UR. Renner
402-0275-00LQuantum ElectronicsW10 KP3V + 2UR. Grange
402-0318-00LSemiconductor Materials: Characterization, Processing and DevicesW6 KP2V + 1US. Schön, M. Shayegan
402-0444-00LDissipative Quantum SystemsW6 KP2V + 1UA. Imamoglu
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