Search result: Courses in Spring Semester 2021

Micro- and Nanosystems Master Information
Core Courses
Recommended Core Courses
Devices and Systems
NumberTitleTypeECTSHoursLecturers
151-0172-00LMicrosystems II: Devices and Applications Information W6 credits3V + 3U
151-0172-00 VMicrosystems II: Devices and Applications
Due to the current situation, the course will be held online in Zoom until further notice.
3 hrs
Thu13:15-16:00ML E 12 »
C. Hierold, C. I. Roman
151-0172-00 UMicrosystems II: Devices and Applications
The course starts in the second week of the Semester. Due to the current situation, the course will be held online in Zoom until further notice.
3 hrs
Mon15:15-18:00ML F 39 »
C. I. Roman
227-0662-00LOrganic and Nanostructured Optics and Electronics (Course)W3 credits2G
227-0662-00 GOrganic and Nanostructured Optics and Electronics (Course)
Does not take place this semester.
Block course containing a lecture portion and an optional paper/project.
28s hrsV. Wood
227-0662-10LOrganic and Nanostructured Optics and Electronics (Project) Information Restricted registration - show details W3 credits2A
227-0662-00 AOrganic and Nanostructured Optics and Electronics (Project)
Does not take place this semester.
Permission from lecturers required for all students.
Block course
28s hrsV. Wood
Energy Conversion and Quantum Phenomena
NumberTitleTypeECTSHoursLecturers
151-0060-00LThermodynamics and Transport Phenomena in NanotechnologyW4 credits2V + 2U
151-0060-00 VThermodynamics and Transport Phenomena in Nanotechnology2 hrs
Wed14:15-16:00CAB G 59 »
T. Schutzius, D. Taylor
151-0060-00 UThermodynamics and Transport Phenomena in Nanotechnology2 hrs
Thu08:15-10:00ML F 40 »
T. Schutzius, D. Taylor
402-0468-15LNanomaterials for PhotonicsW6 credits2V + 1U
402-0468-15 VNanomaterials for Photonics2 hrs
Tue08:45-10:30HIT F 11.1 »
R. Grange, R. Savo
402-0468-15 UNanomaterials for Photonics1 hrs
Tue10:45-11:30HIT F 11.1 »
R. Grange, R. Savo
402-0596-00LElectronic Transport in NanostructuresW6 credits2V + 1U
402-0596-00 VElectronic Transport in Nanostructures2 hrs
Wed13:45-15:30HIT H 42 »
T. M. Ihn
402-0596-00 UElectronic Transport in Nanostructures1 hrs
Wed15:45-16:30HIT F 31.1 »
15:45-16:30HIT J 53 »
T. M. Ihn
529-0431-00LPhysical Chemistry III: Molecular Quantum Mechanics Information Restricted registration - show details W4 credits4G
529-0431-00 GPhysikalische Chemie III: Molekulare Quantenmechanik Special students and auditors need a special permission from the lecturers.
Die Vorlesungen finden Mo 8-9 und Di 8-10 statt.
Uebungen Di 10-11 für die Studierenden der Rechnergestützten Wissenschaften.
4 hrs
Mon07:45-08:30HCI G 3 »
Tue08:00-09:35HIL E 1 »
09:45-10:30HCI D 4 »
09:45-10:30HCI D 6 »
09:45-10:30HCI E 2 »
09:45-10:30HCI F 2 »
09:45-10:30HCI J 8 »
09:45-10:30HIT K 51 »
10:45-11:30HCI D 6 »
10:45-11:30HCI E 2 »
10:45-11:30HIT F 31.1 »
Wed09:45-10:30HCI D 6 »
11:45-12:30HCI D 4 »
11:45-12:30HCI D 6 »
11:45-12:30HCI E 8 »
11:45-12:30HCI F 2 »
F. Merkt
Modelling and Simulation
NumberTitleTypeECTSHoursLecturers
401-3632-00LComputational StatisticsW8 credits3V + 1U
401-3632-00 VComputational Statistics
Vorlesung im HG F 1 mit Videoübertragung ins HG F 3.
3 hrs
Thu14:15-16:00HG F 1 »
14:15-16:00HG F 3 »
Fri09:15-10:00HG F 1 »
09:15-10:00HG F 3 »
M. Mächler
401-3632-00 UComputational Statistics
A "Präsenzstunde" directly following the exercises will be offered Friday 11-12 in HG G 5.
1 hrs
Fri10:15-11:00HG G 5 »
M. Mächler
151-0116-10LHigh Performance Computing for Science and Engineering (HPCSE) for Engineers II Information W4 credits4G
151-0116-00 GHigh Performance Computing for Science and Engineering (HPCSE) II
Lecture: 14-16h
Exercises: 10-12h. The exercises begin in the second week of the semester.
4 hrs
Mon10:15-12:00ML H 44 »
14:15-16:00ML H 44 »
P. Koumoutsakos, S. M. Martin
Laboratory Course
NumberTitleTypeECTSHoursLecturers
151-0620-00LEmbedded MEMS Lab
Number of participants limited to 20.
W5 credits3P
151-0620-00 PEmbedded MEMS Lab
- First part of the compulsory introductory lecture: Wed 24.02.2021 from 13h to 18h (venue: tbd)
- Second part of the compulsory introductory lecture: Wed 03.03.2021 from 13h to 18h (venue: tbd)
Practical portion of the course in the cleanrooms of FIRST-CLA consecutive Wednesdays 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
Wed13:15-14:00CAB G 57 »
13:15-14:00CHN G 22 »
13:15-14:00CLA G 2 »
13:15-14:00HG D 5.1 »
C. Hierold, M. Haluska
Elective Core Courses
NumberTitleTypeECTSHoursLecturers
151-0534-00LAdvanced DynamicsW4 credits3V + 1U
151-0534-00 VAdvanced Dynamics3 hrs
Tue10:15-12:00CAB G 11 »
Wed10:15-11:00CAB G 11 »
P. Tiso
151-0534-00 UAdvanced Dynamics1 hrs
Wed11:15-12:00CAB G 11 »
P. Tiso
151-0622-00LMeasuring on the Nanometer ScaleW2 credits2G
151-0622-00 GMeasuring on the Nanometer Scale2 hrs
Thu10:15-12:00ML F 34 »
A. Stemmer
151-0630-00LNanorobotics Information W4 credits2V + 1U
151-0630-00 VNanorobotics2 hrs
Tue10:15-12:00HG E 1.1 »
S. Pané Vidal
151-0630-00 UNanorobotics1 hrs
Thu16:15-17:00HG E 1.1 »
S. Pané Vidal
151-0642-00LSeminar on Micro and NanosystemsZ0 credits1S
151-0642-00 SSeminar on Micro and Nanosystems1 hrs
Fri14:15-16:00CLA G 2 »
C. Hierold
151-0966-00LIntroduction to Quantum Mechanics for EngineersW4 credits2V + 2U
151-0966-00 VIntroduction to Quantum Mechanics for Engineers2 hrs
Wed10:15-12:00HG G 5 »
D. J. Norris
151-0966-00 UIntroduction to Quantum Mechanics for Engineers
The exercise will start in the 2nd week of the Semester.
2 hrs
Wed14:15-16:00HG D 7.1 »
14:15-16:00IFW A 36 »
Thu08:15-10:00CHN C 14 »
08:15-10:00NO C 44 »
D. J. Norris
227-0125-00LOptics and PhotonicsW6 credits2V + 2U
227-0125-00 VOptics and Photonics2 hrs
Tue10:15-12:00ETZ E 6 »
J. Leuthold
227-0125-00 UOptics and Photonics2 hrs
Tue08:15-10:00ETZ E 6 »
J. Leuthold
227-0159-00LSemiconductor Devices: Quantum Transport at the Nanoscale Information W6 credits2V + 2U
227-0159-00 VSemiconductor Devices: Quantum Transport at the Nanoscale2 hrs
Thu08:15-10:00ETZ G 91 »
M. Luisier, A. Emboras
227-0159-00 USemiconductor Devices: Quantum Transport at the Nanoscale2 hrs
Thu10:15-12:00ETZ G 91 »
M. Luisier, A. Emboras
227-0303-00LAdvanced PhotonicsW6 credits2V + 2U + 1A
227-0303-00 VAdvanced Photonics2 hrs
Thu14:15-16:00ETZ G 91 »
A. Emboras, M. Burla, A. Dorodnyy
227-0303-00 UAdvanced Photonics2 hrs
Thu16:15-18:00ETZ G 91 »
A. Emboras, M. Burla, A. Dorodnyy
227-0303-00 AAdvanced Photonics1 hrsA. Emboras, M. Burla, A. Dorodnyy
227-0330-00LEnergy-Efficient Analog Circuits for IoT SystemsW6 credits2V + 2U
227-0330-00 VEnergy-Efficient Analog Circuits for IoT Systems2 hrs
Mon10:15-12:00ETZ J 91 »
T. Jang
227-0330-00 UEnergy-Efficient Analog Circuits for IoT Systems
Exercises will take place mainly in Computer Room (ETZ D 61.1), watch for announcements during lectures.
2 hrs
Fri14:15-16:00ETZ D 61.1 »
14:15-16:00ETZ J 91 »
T. Jang
227-0622-00LThermal Modeling: From Semiconductor to Medical Devices and Personalized Therapy PlanningW4 credits2V + 1U
227-0622-00 VThermal Modeling: From Semiconductor to Medical Devices and Personalized Therapy Planning2 hrs
Wed09:15-11:00ETZ J 91 »
E. Neufeld, M. Luisier
227-0622-00 UThermal Modeling: From Semiconductor to Medical Devices and Personalized Therapy Planning1 hrs
Wed11:15-12:00ETZ J 91 »
E. Neufeld, M. Luisier
227-0669-00LChemistry of Devices and Technologies Restricted registration - show details
Limited to 30 participants.
W4 credits1V + 2U
227-0669-00 VChemistry of Devices and Technologies
Permission from lecturers required for all students.
1 hrs
Wed09:15-10:00ETZ K 91 »
M. Yarema
227-0669-00 UChemistry of Devices and Technologies
Permission from lecturers required for all students.
2 hrs
Wed10:15-12:00ETZ K 91 »
M. Yarema
227-0966-00LQuantitative Big Imaging: From Images to StatisticsW4 credits2V + 1U
227-0966-00 VQuantitative Big Imaging: From Images to Statistics2 hrs
Thu09:15-11:00LFW C 4 »
P. A. Kaestner, M. Stampanoni
227-0966-00 UQuantitative Big Imaging: From Images to Statistics1 hrs
Thu11:15-12:00LFW C 4 »
P. A. Kaestner, M. Stampanoni
402-0448-01LQuantum 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.
W5 credits2V + 1U
402-0448-01 VQuantum Information Processing I: Concepts2 hrs
Mon13:45-15:30HPV G 5 »
P. Kammerlander
402-0448-01 UQuantum Information Processing I: Concepts1 hrs
Mon15:45-16:30HCI H 8.1 »
15:45-16:30HCI J 4 »
15:45-16:30HIL E 10.1 »
15:45-16:30HPV G 5 »
P. Kammerlander
402-0448-02LQuantum 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.
W5 credits2V + 1U
402-0448-02 VQuantum Information Processing II: Implementations2 hrs
Thu09:45-11:30HPV G 4 »
J. Home
402-0448-02 UQuantum Information Processing II: Implementations1 hrs
Mon16:45-17:30HCI H 2.1 »
16:45-17:30HCI H 8.1 »
16:45-17:30HIL E 10.1 »
16:45-17:30HPV G 5 »
J. Home
529-0625-00LChemical EngineeringW3 credits3G
529-0625-00 GChemieingenieurwissenschaften
Vorlesung: Fr 10-12
Übungen: Di 10-11
3 hrs
Tue09:45-10:30HCI D 2 »
09:45-10:30HCI D 8 »
Fri09:45-11:30HCI G 3 »
09:45-11:30HCI J 6 »
W. J. Stark
701-1244-00LAerosols II: Applications in Environment and TechnologyW4 credits2V + 1U
701-1244-00 VAerosols II: Applications in Environment and Technology2 hrs
Mon14:15-16:00CAB G 52 »
M. Gysel Beer, D. Bell, J. Slowik
701-1244-00 UAerosols II: Applications in Environment and Technology1 hrs
Mon13:15-14:00CAB G 52 »
M. Gysel Beer, D. Bell, J. Slowik
752-3000-00LFood Process Engineering IW4 credits3V
752-3000-00 VLebensmittel-Verfahrenstechnik I3 hrs
Mon08:15-10:00ML E 12 »
Wed08:15-10:00LFO C 13 »
E. J. Windhab
151-0593-00LEmbedded Control SystemsW4 credits6G
151-0593-00 GEmbedded Control Systems
This two-week block course is offered every Autumn Semester but will take place daily (15-19.02.2021 & 22-26.02.2021) in Spring Semester 2021 as an exception.
80s hrs
15.02. - 19.02.08:15-18:00ML H 41.1 »
22.02. - 26.02.08:15-18:00LEE E 308 »
J. S. Freudenberg, M. Schmid Daners
Multidisciplinary Courses
The students are free to choose individually from the Course Catalogue of ETH Zurich, ETH Lausanne and the Universities of Zurich (https://www.uzh.ch/cmsssl/en/studies/application/chmobilityin.html) and St. Gallen.
» Course Catalogue of ETH Zurich
GESS Science in Perspective
» see Science in Perspective: Type A: Enhancement of Reflection Capability
» Recommended Science in Perspective (Type B) for D-MAVT
» see Science in Perspective: Language Courses ETH/UZH
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