Micro- and Nanosystems Master  |
 Core Courses |
| Recommended Core Courses |
| Devices and Systems |
| Number | Title | Type | ECTS | Hours | Lecturers |
|---|
| 151-0172-00L | Microsystems II: Devices and Applications | W | 6 credits | 3V + 3U | |
| 151-0172-00 V | Microsystems II: Devices and Applications
Due to the current situation, the course will be held online in Zoom until further notice. | | | 3 hrs | | C. Hierold,
C. I. Roman |
| 151-0172-00 U | Microsystems 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 | | C. I. Roman |
| 227-0662-00L | Organic and Nanostructured Optics and Electronics (Course) | W | 3 credits | 2G | |
| 227-0662-00 G | Organic and Nanostructured Optics and Electronics (Course)
Does not take place this semester.
Block course containing a lecture portion and an optional paper/project. | | | 28s hrs | | V. Wood |
| 227-0662-10L | Organic and Nanostructured Optics and Electronics (Project)  | W | 3 credits | 2A | |
| 227-0662-00 A | Organic and Nanostructured Optics and Electronics (Project)
Does not take place this semester.
Permission from lecturers required for all students.
Block course | | | 28s hrs | | V. Wood |
|
| Energy Conversion and Quantum Phenomena |
| Number | Title | Type | ECTS | Hours | Lecturers |
|---|
| 151-0060-00L | Thermodynamics and Transport Phenomena in Nanotechnology | W | 4 credits | 2V + 2U | |
| 151-0060-00 V | Thermodynamics and Transport Phenomena in Nanotechnology | | | 2 hrs | | T. Schutzius,
D. Taylor |
| 151-0060-00 U | Thermodynamics and Transport Phenomena in Nanotechnology | | | 2 hrs | | T. Schutzius,
D. Taylor |
| 402-0468-15L | Nanomaterials for Photonics | W | 6 credits | 2V + 1U | |
| 402-0468-15 V | Nanomaterials for Photonics | | | 2 hrs | | R. Grange,
R. Savo |
| 402-0468-15 U | Nanomaterials for Photonics | | | 1 hrs | | R. Grange,
R. Savo |
| 402-0596-00L | Electronic Transport in Nanostructures | W | 6 credits | 2V + 1U | |
| 402-0596-00 V | Electronic Transport in Nanostructures | | | 2 hrs | | T. M. Ihn |
| 402-0596-00 U | Electronic Transport in Nanostructures | | | 1 hrs | | T. M. Ihn |
| 529-0431-00L | Physical Chemistry III: Molecular Quantum Mechanics | W | 4 credits | 4G | |
| 529-0431-00 G | Physikalische Chemie III: Molekulare Quantenmechanik
Die Vorlesungen finden Mo 8-9 und Di 8-10 statt.
Uebungen Di 10-11 für die Studierenden der Rechnergestützten Wissenschaften. | | | 4 hrs | | F. Merkt |
|
| Modelling and Simulation |
| Number | Title | Type | ECTS | Hours | Lecturers |
|---|
| 401-3632-00L | Computational Statistics | W | 8 credits | 3V + 1U | |
| 401-3632-00 V | Computational Statistics
Vorlesung im HG F 1 mit Videoübertragung ins HG F 3. | | | 3 hrs | | M. Mächler |
| 401-3632-00 U | Computational Statistics
A "Präsenzstunde" directly following the exercises will be offered Friday 11-12 in HG G 5. | | | 1 hrs | | M. Mächler |
| 151-0116-10L | High Performance Computing for Science and Engineering (HPCSE) for Engineers II | W | 4 credits | 4G | |
| 151-0116-00 G | High 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 | | P. Koumoutsakos,
S. M. Martin |
|
| Laboratory Course |
| Number | Title | Type | ECTS | Hours | Lecturers |
|---|
| 151-0620-00L | Embedded MEMS Lab Number of participants limited to 20. | W | 5 credits | 3P | |
| 151-0620-00 P | Embedded 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 | | C. Hierold,
M. Haluska |
|
| Elective Core Courses |
| Number | Title | Type | ECTS | Hours | Lecturers |
|---|
| 151-0534-00L | Advanced Dynamics | W | 4 credits | 3V + 1U | |
| 151-0534-00 V | Advanced Dynamics | | | 3 hrs | | P. Tiso |
| 151-0534-00 U | Advanced Dynamics | | | 1 hrs | | P. Tiso |
| 151-0622-00L | Measuring on the Nanometer Scale | W | 2 credits | 2G | |
| 151-0622-00 G | Measuring on the Nanometer Scale | | | 2 hrs | | A. Stemmer |
| 151-0630-00L | Nanorobotics | W | 4 credits | 2V + 1U | |
| 151-0630-00 V | Nanorobotics | | | 2 hrs | | S. Pané Vidal |
| 151-0630-00 U | Nanorobotics | | | 1 hrs | | S. Pané Vidal |
| 151-0642-00L | Seminar on Micro and Nanosystems | Z | 0 credits | 1S | |
| 151-0642-00 S | Seminar on Micro and Nanosystems | | | 1 hrs | | C. Hierold |
| 151-0966-00L | Introduction to Quantum Mechanics for Engineers | W | 4 credits | 2V + 2U | |
| 151-0966-00 V | Introduction to Quantum Mechanics for Engineers | | | 2 hrs | | D. J. Norris |
| 151-0966-00 U | Introduction to Quantum Mechanics for Engineers
The exercise will start in the 2nd week of the Semester. | | | 2 hrs | | D. J. Norris |
| 227-0125-00L | Optics and Photonics | W | 6 credits | 2V + 2U | |
| 227-0125-00 V | Optics and Photonics | | | 2 hrs | | J. Leuthold |
| 227-0125-00 U | Optics and Photonics | | | 2 hrs | | J. Leuthold |
| 227-0159-00L | Semiconductor Devices: Quantum Transport at the Nanoscale | W | 6 credits | 2V + 2U | |
| 227-0159-00 V | Semiconductor Devices: Quantum Transport at the Nanoscale | | | 2 hrs | | M. Luisier,
A. Emboras |
| 227-0159-00 U | Semiconductor Devices: Quantum Transport at the Nanoscale | | | 2 hrs | | M. Luisier,
A. Emboras |
| 227-0303-00L | Advanced Photonics | W | 6 credits | 2V + 2U + 1A | |
| 227-0303-00 V | Advanced Photonics | | | 2 hrs | | A. Emboras,
M. Burla,
A. Dorodnyy |
| 227-0303-00 U | Advanced Photonics | | | 2 hrs | | A. Emboras,
M. Burla,
A. Dorodnyy |
| 227-0303-00 A | Advanced Photonics | | | 1 hrs | | A. Emboras,
M. Burla,
A. Dorodnyy |
| 227-0330-00L | Energy-Efficient Analog Circuits for IoT Systems | W | 6 credits | 2V + 2U | |
| 227-0330-00 V | Energy-Efficient Analog Circuits for IoT Systems | | | 2 hrs | | T. Jang |
| 227-0330-00 U | Energy-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 | | T. Jang |
| 227-0622-00L | Thermal Modeling: From Semiconductor to Medical Devices and Personalized Therapy Planning | W | 4 credits | 2V + 1U | |
| 227-0622-00 V | Thermal Modeling: From Semiconductor to Medical Devices and Personalized Therapy Planning | | | 2 hrs | | E. Neufeld,
M. Luisier |
| 227-0622-00 U | Thermal Modeling: From Semiconductor to Medical Devices and Personalized Therapy Planning | | | 1 hrs | | E. Neufeld,
M. Luisier |
| 227-0669-00L | Chemistry of Devices and Technologies Limited to 30 participants. | W | 4 credits | 1V + 2U | |
| 227-0669-00 V | Chemistry of Devices and Technologies
Permission from lecturers required for all students.
| | | 1 hrs | | M. Yarema |
| 227-0669-00 U | Chemistry of Devices and Technologies
Permission from lecturers required for all students.
| | | 2 hrs | | M. Yarema |
| 227-0966-00L | Quantitative Big Imaging: From Images to Statistics | W | 4 credits | 2V + 1U | |
| 227-0966-00 V | Quantitative Big Imaging: From Images to Statistics | | | 2 hrs | | P. A. Kaestner,
M. Stampanoni |
| 227-0966-00 U | Quantitative Big Imaging: From Images to Statistics | | | 1 hrs | | P. A. Kaestner,
M. Stampanoni |
| 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 | |
| 402-0448-01 V | Quantum Information Processing I: Concepts | | | 2 hrs | | P. Kammerlander |
| 402-0448-01 U | Quantum Information Processing I: Concepts | | | 1 hrs | | 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 | |
| 402-0448-02 V | Quantum Information Processing II: Implementations | | | 2 hrs | | J. Home |
| 402-0448-02 U | Quantum Information Processing II: Implementations | | | 1 hrs | | J. Home |
| 529-0625-00L | Chemical Engineering | W | 3 credits | 3G | |
| 529-0625-00 G | Chemieingenieurwissenschaften
Vorlesung: Fr 10-12
Übungen: Di 10-11 | | | 3 hrs | | W. J. Stark |
| 701-1244-00L | Aerosols II: Applications in Environment and Technology | W | 4 credits | 2V + 1U | |
| 701-1244-00 V | Aerosols II: Applications in Environment and Technology | | | 2 hrs | | M. Gysel Beer,
D. Bell,
J. Slowik |
| 701-1244-00 U | Aerosols II: Applications in Environment and Technology | | | 1 hrs | | M. Gysel Beer,
D. Bell,
J. Slowik |
| 752-3000-00L | Food Process Engineering I | W | 4 credits | 3V | |
| 752-3000-00 V | Lebensmittel-Verfahrenstechnik I | | | 3 hrs | | E. J. Windhab |
| 151-0593-00L | Embedded Control Systems | W | 4 credits | 6G | |
| 151-0593-00 G | Embedded 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 | | J. S. Freudenberg,
M. Schmid Daners |
|
Multidisciplinary Courses
|
| »
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 |
| Number | Title | Type | ECTS | Hours | Lecturers |
|---|
| 151-1007-00L | Semester Project Micro- and Nanosystems 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. | O | 8 credits | 17A | |
| 151-1007-00 A | Semester Project Micro- and Nanosystems | | | 240s hrs | by appt. | Professors |
|
| Industrial Internship |
| Number | Title | Type | ECTS | Hours | Lecturers |
|---|
| 151-1090-00L | Industrial InternshipAccess to the company list and request for recognition under www.mavt.ethz.ch/praxis. No registration required via myStudies. | O | 8 credits | | |
| 151-1090-00 P | Industrial Internship | | | | | external organisers |
|
| Master's Thesis |
| Number | Title | Type | ECTS | Hours | Lecturers |
|---|
| 151-1006-00L | Master's Thesis Micro- and Nanosystems 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. | O | 30 credits | 64D | |
| 151-1006-00 D | Master's Thesis Micro- and Nanosystems
| | | 900s hrs | by appt. | Professors |
