Search result: Courses in Autumn Semester 2020

Micro- and Nanosystems Master Information
Core Courses
Devices and Systems
NumberTitleTypeECTSHoursLecturers
227-0166-00LAnalog Integrated Circuits Information W6 credits2V + 2U
227-0166-00 VAnalog Integrated Circuits
The lecture can also be attended "online", per Zoom.
2 hrs
Fri10:15-12:00ETF C 1 »
T. Jang
227-0166-00 UAnalog Integrated Circuits
Some of the exercise lessons will take place in computer room ETZ D61.1, D61.2 and D96.1.
To be announced during the course lessons.
2 hrs
Fri14:15-16:00ETZ D 61.1 »
14:15-16:00ETZ D 61.2 »
14:15-16:00ETZ D 96.1 »
T. Jang
Energy Conversion and Quantum Phenomena
NumberTitleTypeECTSHoursLecturers
151-0913-00LIntroduction to Photonics Restricted registration - show details W4 credits2V + 2U
151-0913-00 VIntroduction to Photonics
This course will be taught in a hybrid of online and face-to-face classroom formats; students will be informed who can attend the class on campus.
2 hrs
Thu10:15-12:00CAB G 51 »
R. Quidant
151-0913-00 UIntroduction to Photonics2 hrs
Thu14:00-16:00ON LI NE »
R. Quidant
402-0595-00LSemiconductor NanostructuresW+6 credits2V + 1U
402-0595-00 VSemiconductor Nanostructures2 hrs
Wed11:45-13:30HCI J 4 »
T. M. Ihn
402-0595-00 USemiconductor Nanostructures
or by appointment
1 hrs
Wed13:45-14:30HIL C 10.2 »
13:45-14:30HIL F 10.3 »
T. M. Ihn
Material, Surfaces and Properties
NumberTitleTypeECTSHoursLecturers
151-0509-00LMicroscale Acoustofluidics Restricted registration - show details W4 credits3G
151-0509-00 GMicroscale Acoustofluidics3 hrs
Wed13:15-16:00CAB G 11 »
14.10.16:15-17:00CAB G 11 »
J. Dual
151-0524-00LContinuum Mechanics IW+4 credits2V + 1U
151-0524-00 VContinuum Mechanics I
The lecturers will communicate the exact lesson times of ONLINE courses.
2 hrs
Fri08:00-10:00ON LI NE »
E. Mazza
151-0524-00 UContinuum Mechanics I
Exercises start in the second week of the semester.
The lecturers will communicate the exact lesson times of ONLINE courses.
1 hrs
Wed12:00-13:00ON LI NE »
E. Mazza
151-0902-00LMicro- and Nanoparticle Technology Restricted registration - show details
Number of participants is limited to 20.
Additional ones could be enrolled by permission of the lecturer.
W6 credits2V + 2U
151-0902-00 VMicro- and Nanoparticle Technology
Permission from lecturers required for all students.
2 hrs
Fri10:15-12:00ML F 40 »
S. E. Pratsinis, G. Kelesidis, K. Wegner
151-0902-00 UMicro- and Nanoparticle Technology
Permission from lecturers required for all students.
2 hrs
Wed14:15-16:00ML F 40 »
S. E. Pratsinis, G. Kelesidis, V. Mavrantzas
327-0505-00LSurfaces, Interfaces and their Applications I Information W3 credits2V + 1U
327-0505-00 VSurfaces, Interfaces and their Applications I2 hrs
Mon08:45-10:30HCI J 7 »
N. Spencer, M. P. Heuberger, L. Isa
327-0505-00 USurfaces, Interfaces and their Applications I1 hrs
Mon10:45-11:30HCI J 7 »
N. Spencer, M. P. Heuberger, L. Isa
Modelling and Simulation
NumberTitleTypeECTSHoursLecturers
151-0107-20LHigh Performance Computing for Science and Engineering (HPCSE) I Information W4 credits4G
151-0107-20 GHigh Performance Computing for Science and Engineering (HPCSE) I
Lecture: 10-12h
Exercises: 8-10h

The lecture begins on Friday at 10-12 in the first week but the exercises begin on Friday at 8-10 in the second week of the Semester.
The lecturers will communicate the exact lesson times of ONLINE courses.
4 hrs
Fri08:15-10:00HG E 26.1 »
08:15-10:00HG E 26.3 »
08:15-10:00HG E 27 »
08:15-10:00ML H 44 »
10:00-12:00ON LI NE »
P. Koumoutsakos, S. M. Martin
227-2037-00LPhysical Modelling and SimulationW+6 credits4G
227-2037-00 GPhysical Modelling and Simulation4 hrs
Thu08:15-12:00ETZ E 6 »
J. Smajic
Laboratory Course
NumberTitleTypeECTSHoursLecturers
151-0620-00LEmbedded MEMS LabW+5 credits3P
151-0620-00 PEmbedded MEMS Lab
- First part of the compulsory introductory lecture: 21.09.2020 from 13:15h to 18 h, venue will be communicated.
- Second part of the compulsory introductory lecture: 28.09.2020 from 13:15h to 18 hvenue will be communicated.
- Practical portion of the course in the cleanrooms of CLA: 7 consecutive Mondays from 13:00 (exact) to ~18:30 during the Semester. Starting days for groups are staggered.
- Attendance is required at all meetings of the course.
45s hrs
Mon13:15-14:00ML J 34.1 »
13:15-14:00ML J 34.3 »
13:15-14:00ML J 37.1 »
13:15-17:00CLA G 2 »
21.09.13:15-18:00HG E 3 »
28.09.13:15-18:00HG E 3 »
C. Hierold, S. Blunier, M. Haluska
Elective Core Courses
NumberTitleTypeECTSHoursLecturers
151-0525-00LDynamic Behavior of Materials
“Note: previous course title until HS19 "Wave Propagation in Solids".
W4 credits2V + 2U
151-0525-00 VDynamic Behavior of Materials2 hrs
Fri10:15-12:00HG D 5.2 »
D. Mohr, C. Roth, T. Tancogne-Dejean
151-0525-00 UDynamic Behavior of Materials2 hrs
Fri12:15-14:00HG D 5.2 »
D. Mohr, C. Roth, T. Tancogne-Dejean
151-0532-00LNonlinear Dynamics and Chaos I Information W4 credits2V + 2U
151-0532-00 VNonlinear Dynamics and Chaos I
The lecturers will communicate the exact lesson times of ONLINE courses.
2 hrs
Wed10:00-12:00ON LI NE »
G. Haller
151-0532-00 UNonlinear Dynamics and Chaos I
The lecturers will communicate the exact lesson times of ONLINE courses.
2 hrs
Thu16:00-18:00ON LI NE »
G. Haller
151-0593-00LEmbedded Control SystemsW4 credits6G
151-0593-00 GEmbedded Control Systems
Does not take place this semester.
This two-week block course takes place every Autumn Semester but will be offered in Spring Semester 2021 instead of Autumn Semester 2020 as an exception.
80s hrs
151-0605-00LNanosystemsW4 credits4G
151-0605-00 GNanosystems
The exercises will take place in the laboratories.
4 hrs
Thu10:00-13:00ON LI NE »
A. Stemmer
151-0621-00LMicrosystems I: Process Technology and IntegrationW6 credits3V + 3U
151-0621-00 VMicrosystems I: Process Technology and Integration
The lecture starts in the second week of the Semester. This course will be taught in a hybrid of online and face-to-face classroom formats; students can choose to attend the class on campus or to join the live streaming class.
3 hrs
Thu13:15-16:00HG E 5 »
C. Hierold, M. Haluska
151-0621-00 UMicrosystems I: Process Technology and Integration
The exercise starts in the third week of the Semester. This course will be taught in a hybrid of online and face-to-face classroom formats; students can choose to attend the class on campus or to join the live streaming class.
3 hrs
Tue16:15-19:00HG E 1.2 »
M. Haluska
151-0642-00LSeminar on Micro and NanosystemsZ0 credits1S
151-0642-00 SSeminar on Micro and Nanosystems
This course will be taught in a hybrid of online and face-to-face classroom formats; students can choose to attend the class on campus or to join a real-time Zoom class.
1 hrs
Fri14:15-16:00CLA G 2 »
C. Hierold
151-0911-00LIntroduction to Plasmonics Information W4 credits2V + 1U
151-0911-00 VIntroduction to Plasmonics2 hrs
Wed16:00-18:00ON LI NE »
D. J. Norris
151-0911-00 UIntroduction to Plasmonics1 hrs
Thu09:00-10:00ON LI NE »
D. J. Norris
227-0145-00LSolid State Electronics and Optics Information W6 credits4G
227-0145-00 GSolid State Electronics and Optics4 hrs
Mon14:15-16:00ETZ E 8 »
Thu14:15-16:00LFW C 4 »
N. Yazdani, V. Wood
227-0157-00LSemiconductor Devices: Physical Bases and Simulation Information W4 credits3G
227-0157-00 GSemiconductor Devices: Physical Bases and Simulation
Falls alle Hörende es wünschen, kann die Vorlesung auch auf Deutsch gehalten werden.
3 hrs
Mon09:15-12:00ETZ G 91 »
A. Schenk
227-0158-00LSemiconductor Devices: Transport Theory and Monte Carlo Simulation Information
The course was offered for the last time in HS19.
W4 credits2G
227-0158-00 GSemiconductor Devices: Transport Theory and Monte Carlo Simulation
Does not take place this semester.
30s hrs
227-0225-00LLinear System TheoryW6 credits5G
227-0225-00 GLinear System Theory
The lecturers will communicate the exact lesson times of ONLINE courses.
5 hrs
Mon09:00-12:00ON LI NE »
Wed10:00-12:00ON LI NE »
M. Colombino
227-0377-10LPhysics of Failure and Reliability of Electronic Devices and SystemsW3 credits2V
227-0377-10 VPhysics of Failure and Reliability of Electronic Devices and Systems2 hrs
Thu14:15-16:00ETZ K 91 »
I. Shorubalko, M. Held
227-0468-00LAnalog Signal Processing and Filtering Information
Suitable for Master Students as well as Doctoral Students.
W6 credits2V + 2U
227-0468-00 VAnalog Signal Processing and Filtering2 hrs
Wed08:00-10:00ON LI NE »
H. Schmid
227-0468-00 UAnalog Signal Processing and Filtering2 hrs
Wed10:00-12:00ON LI NE »
H. Schmid
227-0653-00LElectromagnetic Precision Measurements and Opto-MechanicsW4 credits2V + 1U
227-0653-00 VElectromagnetic Precision Measurements and Opto-Mechanics
Does not take place this semester.
2 hrsM. Frimmer
227-0653-00 UElectromagnetic Precision Measurements and Opto-Mechanics
Does not take place this semester.
1 hrsM. Frimmer
227-0663-00LNano-Optics Information W6 credits2V + 2U
227-0663-00 VNano-Optics2 hrs
Fri10:15-12:00ML E 12 »
M. Frimmer
227-0663-00 UNano-Optics
The exercise classes include solving homework problems and work on the literature project.
2 hrs
Fri12:15-14:00ML E 12 »
M. Frimmer
402-0447-00LQuantum Science with Superconducting CircuitsW6 credits2V + 1U
402-0447-00 VQuantum Science with Superconducting Circuits2 hrs
Fri09:45-11:30HPV G 4 »
C. Eichler
402-0447-00 UQuantum Science with Superconducting Circuits1 hrs
Fri11:45-12:30HPV G 4 »
C. Eichler
402-0811-00LProgramming Techniques for Scientific Simulations IW5 credits4G
402-0811-00 GProgramming Techniques for Scientific Simulations I
WILL BE CONDUCTED ONLINE FROM 2 NOVEMBER

Bei mehr als 150 Belegungen würden die RW-Studierenden für die Präsenzvorlesung bevorzugt.
4 hrs
Thu13:45-17:30HCI G 3 »
R. Käppeli
529-0611-01LMolecular Aspects of Catalysts and SurfacesW6 credits4G
529-0611-01 GMolecular Aspects of Catalysts and Surfaces
In addition to the lecture, there wil be an laboratory exercise class on some Mondays from 10-11. Students will be informed at the beginning of the semester.
4 hrs
Tue15:45-17:30HCI H 2.1 »
Wed09:45-11:30HCI D 8 »
J. A. van Bokhoven, D. Ferri
529-0643-01LProcess Design and Development Information W6 credits3G
529-0643-01 GProcess Design and Development3 hrs
Tue09:45-11:30HCI J 7 »
Wed12:45-13:30HCI J 6 »
G. Guillén Gosálbez
701-1239-00LAerosols I: Physical and Chemical PrinciplesW4 credits2V + 1U
701-1239-00 VAerosols I: Physical and Chemical Principles
The lecturers will communicate the exact lesson times of ONLINE courses.
2 hrs
Mon14:00-16:00ON LI NE »
M. Gysel Beer, D. Bell, E. Weingartner
701-1239-00 UAerosols I: Physical and Chemical Principles
The lecturers will communicate the exact lesson times of ONLINE courses.
1 hrs
Mon13:00-14:00ON LI NE »
M. Gysel Beer, D. Bell, E. Weingartner
752-3103-00LFood Rheology IW3 credits2V
752-3103-00 VFood Rheology I2 hrs
Tue08:15-10:00CHN C 14 »
P. A. Fischer
Multidisciplinary Courses
The students are free to choose individually from the Course Catalogue of ETH Zurich, ETH Lausanne and the Universities of Zurich and St. Gallen.
» Course Catalogue of ETH Zurich
GESS Science in Perspective
» see GESS Science in Perspective: Language Courses ETH/UZH
» see GESS Science in Perspective: Type A: Enhancement of Reflection Capability
» Recommended GESS Science in Perspective (Type B) for D-MAVT.
Semester Project
NumberTitleTypeECTSHoursLecturers
151-1007-00LSemester Project Micro- and Nanosystems Restricted registration - show details
Only for Micro- and Nanosystems MSc.

The subject of the Semester Project and the choice of the supervisor (ETH-professor) are to be approved in advance by the tutor.
O8 credits17A
151-1007-00 ASemester Project Micro- and Nanosystems240s hrsby appt.Professors
Industrial Internship
NumberTitleTypeECTSHoursLecturers
151-1090-00LIndustrial Internship
Access to the company list and request for recognition under www.mavt.ethz.ch/praxis.

No registration required via myStudies.
O8 credits
151-1090-00 PIndustrial Internshipexternal organisers
Master's Thesis
NumberTitleTypeECTSHoursLecturers
151-1006-00LMaster's Thesis Micro- and Nanosystems Restricted registration - show details
Students who fulfill the following criteria are allowed to begin with their Master's Thesis:
a. successful completion of the bachelor program;
b. fulfilling of any additional requirements necessary to gain admission to the master programme;
c. successful completion of the semester project;
d. achievement of 32 ECTS in the category "Core Courses".

The Master's Thesis must be approved in advance by the tutor and is supervised by a professor of ETH Zurich.
To choose a titular professor as a supervisor, please contact the D-MAVT Student Administration.
O30 credits64D
151-1006-00 DMaster's Thesis Micro- and Nanosystems Special students and auditors need a special permission from the lecturers.900s hrsby appt.Professors