Search result: Course units in Spring Semester 2020
|Quantum Engineering Master|
| Core Courses|
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.
|227-0159-00L||Semiconductor Devices: Quantum Transport at the Nanoscale||W||6 credits||2V + 2U||M. Luisier, A. Emboras|
|227-0207-00L||Nonlinear Systems and Control |
Prerequisite: Control Systems (227-0103-00L)
|W||6 credits||4G||E. Gallestey Alvarez, P. F. Al Hokayem|
|227-0418-00L||Algebra and Error Correcting Codes||W||6 credits||4G||H.‑A. Loeliger|
| Physics Core Courses|
These core courses target students with an engineering background and all those who need additional physics foundations.
|402-0448-01L||Quantum Information Processing I: Concepts|
This theory part QIP I together with the experimental part 402-0448-02L QIP II (both offered in the Spring Semester) combine to the core course in experimental physics "Quantum Information Processing" (totally 10 ECTS credits). This applies to the Master's degree programme in Physics.
|W||5 credits||2V + 1U||P. Kammerlander|
|402-0448-02L||Quantum Information Processing II: Implementations|
This experimental part QIP II together with the theory part 402-0448-01L QIP I (both offered in the Spring Semester) combine to the core course in experimental physics "Quantum Information Processing" (totally 10 ECTS credits). This applies to the Master's degree programme in Physics.
|W||5 credits||2V + 1U||J. Home|
|402-0871-00L||Solid State Theory|
UZH students are not allowed to register this course unit at ETH. They must book the corresponding module directly at UZH.
|W||10 credits||4V + 1U||M. Sigrist|
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.
|227-0111-00L||Communication Electronics||W||6 credits||2V + 2U||Q. Huang|
|227-0104-00L||Communication and Detection Theory||W||6 credits||4G||A. Lapidoth|
|227-0125-00L||Optics and Photonics||W||6 credits||2V + 2U||J. Leuthold|
|227-0146-00L||Analog-to-Digital Converters |
Does not take place this semester.
Course will be moved to the fall semester 2021.
|W||6 credits||2V + 2U|
|227-0147-00L||VLSI II: Design of Very Large Scale Integration Circuits||W||6 credits||5G||F. K. Gürkaynak, L. Benini|
|227-0216-00L||Control Systems II||W||6 credits||4G||R. Smith|
|227-0434-10L||Mathematics of Information||W||8 credits||3V + 2U + 2A||H. Bölcskei|
|151-0966-00L||Introduction to Quantum Mechanics for Engineers||W||4 credits||2V + 2U||D. J. Norris|
|252-0220-00L||Introduction to Machine Learning |
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 email@example.com
|W||8 credits||4V + 2U + 1A||A. Krause|
|263-4660-00L||Applied Cryptography |
Number of participants limited to 150.
|W||8 credits||3V + 2U + 2P||K. Paterson|
|402-0206-00L||Quantum Mechanics II||W||10 credits||3V + 2U||G. Blatter|
|402-0275-00L||Quantum Electronics||W||10 credits||3V + 2U||S. Johnson|
|402-0318-00L||Semiconductor Materials: Characterization, Processing and Devices||W||6 credits||2V + 1U||S. Schön, W. Wegscheider|
|402-0444-00L||Advanced Quantum Optics||W||6 credits||2V + 1U||A. Imamoglu|
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