Advanced Laboratory Course for Master Students - Winter Semester 2022-23
Welcome to the Advanced Laboratory Course for Master Students, Winter 2022-2023 edition! The goal of the class is to learn the basics of modern experimental physics. You will be working in a group with one or two other students. During the class, each group will carry out 8 experiments from different fields of physics. Each experiment will be supervised by a tutor. Tutors help with carrying our experiments and grade experimental reports completed after the experiment. In addition to reports, each group will deliver one seminar-style talk about their experiment to the entire class. Please enjoy the class and be safe!
Prerequisites: This class is hard! (yes, really) You should only take it if you took a similar class on a Bachelor's level. You should have experience with long-form scientific writing -- you will have to submit 8 lab reports, each report 10–15 pages long. You have to have experience in the areas of Quantum Mechanics, Solid State Physics, Statistical Physics (many experiments require a background in these subjects). Finally, you have to understand the basics of data analysis, such as error propagation, confidence intervals, fitting, etc... If you DO NOT have these prerequisites -- please do not take this class. Instead, register for "Preparatory Course to the Advanced Master Laboratory". This class is designed to give you this background and to prepare you for the Advanced Labs class next semester.
*Important*:
0. The class takes place in the presence form, unless the situation changes due to university regulations.
1. To participate in the class, you must register for it here. Using this link, you will be able to let me know your name, your preferred group partner, your preferred experiments, and special circumstances. Please answer by this Friday.
2. Based on this information, I will create a list of groups and an experiment schedule (which will be posted online next week).
3. There will be NO seminar/lectures during the first week of classes (the week of 17 October). Our first meeting will be during the seminar next Monday, 24th of October, 14:00-16:00 (in 1.3.14, Hörsaal A). During this meeting, we will talk about class structure and -- most importantly -- present a lecture on laboratory safety.
Very important: note, if you do not participate in the safety lecture, you cannot attend the course! So please do make sure that you come and attend the lecture!4. First experiments will start that week, on 27th of October (Thursday). Remember: you have to contact your tutors in advance (contacts in the schedule excel file) and send them a quick write-up before the experiment. Also, you have to show up promptly for the experiment. There will be experimental slots on Thursdays after that.
5. During the lecture period of the class, the following lectures will be held (in 1.3.14, Hörsaal A): Scientific Integrity (31 October, 14--16); Data Analysis (7 October, 14 -- 16). After a short pause, we will have students talks on Mondays (2 talks per lecture) during which students will discuss their experiments.
ORGANIZER
Prof. Kirill Bolotin
Best contact: email (bolotin@physik.fu-berlin.de). You could also stop by my office (1.2.37), or call me (838-50900)
OFFERED EXPERIMENTS
|
No. |
Experiments during the semester |
Room |
|
Ma1 |
Compton-Effect |
0.4.57 |
|
Ma2 |
Low Energy Electron Diffraction on Surfaces (LEED) |
0.4.02 |
|
Ma3 |
Pulsed Nuclear Magnetic Resonance (NMR) |
0.4.02 |
|
Ma4 |
Photoelectron spectroscopy (PES) |
|
|
Ma5 |
Dynamical processes in lipid membranes |
-1.1.18 |
|
Ma6 |
Atomic Force Microscopy (AFM) |
0.3.18 |
|
Ma10 |
Auger Spectroscopy |
|
|
Ma12 |
Magnetooptic Kerr Effect and magnetic anisotropies (MOKE) |
0.1.13 |
|
Ma 14 |
Solid state laser principles |
0.1.29 |
|
Ma15 |
Electron Paramagnetic Resonance |
0.4.07 |
|
Ma17 |
Formation of protein self assembled monolayer monitored by Quartz Crystal Microbalance |
0.1.16 |
|
|
|
|
|
|
1 day each during the first two weeks of the semester break (likely) |
|
|
Ma7 |
Raman Scattering |
1.1.46 |
|
Ma8 |
Superconductivity |
|
|
Ma9 |
Photoluminescence (online!) |
1.1.46 |
|
Ma20 |
Electron beam lithography and nanofabrication |
-1.2.12 |
|
Ma21 |
Electron quantum transport in graphene |
-1.2.04 |
USEFUL INFORMATION
Schedule, List of groups, List of tutors (will be posted next week)
Course rules, regulations and advice (Read it please!)
The description and manuals for all of the experiments (use your zedat password/login to access)
FORMS
Participation certificate for students
Evaluation form for tutors