A lap 2021. szeptember 15., 09:59-kori változata

Physics Laboratory - Physics MSc, Nanotechnology and Materials Science specialization

The information on this page applies both to the Research Physicist and to the Nanotechnology and Materials Science specializations.

Course data

• First occasion: 6th of September, Monday 8:30-14:00, building F, staircase III, 2nd floor, room no. 13. (F3213)
• Neptun code of the course:
  • BMETE11MF02 (research physicist specialization)
  • BMETE11MF46 (nanotechnology and materials science specialization)
• Responsible lecturer: Dr. András Halbritter
• Requirements: 0/0/6/F/6
• Language: English
• Requirements to pass:
  • Completion of all programming and measurement control exercises and the laboratory experiments. In case of justified absence, you have the possibility to retake 2 experiments.
  • Handing in reports of the exercises and laboratory experiments.
• Grading: based on the reports and activity throughout the course.
• Consultation: arranged individually, on an on-demand basis.

Overview of the lab course

• Day 1 (6th of September): basics of C# programming (for everyone) Slides
  • Building a GUI, handling events
  • Basic file I/O
  • Communication with instruments over serial port or GPIB
• Day 2 (13th of September): more C# programming (for everyone) Slides
  • Real-time plotting
  • Using the NI myDAQ
• Days 3-5: experiment control exercises (for everyone, but scheduled on an individual basis)
  • Investigation of High Temperature Superconductors (SC)
  • Quartz sensor (QUARTZ)
  • Investigation of atomic contacts (ATOMIC)
• Days 6-8: lab experiments (depending on the specialization, scheduled on an individual basis)
  • Research physicist specialization: two out of the three measurements below must be completed. Each experiment takes a whole day (~8 hours starting from 8:30). Upon a justified request the measurement dates can be rescheduled once the measurement pair and the lab leaders can agree on a new date.
    • NMR
    • ESR (to be translated)
    • MOKE
  • Nanotechnology and Materials Science specialization: the three measurements below must be all completed. The STM measurement takes a whole day (~8 hours starting from 8:30), whereas the Surface physics measurements take a half day each (~4 hours starting from 8:30). Upon a justified request the measurement dates can be rescheduled once the measurement pair and the lab leaders can agree on a new date.
    • STM and RRAM
    • Surface physics 1 (SP1)
    • Surface physics 2 (SP2): SIMS and XPS

Locations

• Days 1-5
  • Lecture Hall F3211
• Days 6-8 Map

• • NMR: F I. basement 6., High-field NMR Laboratory
  • ESR: L ground floor (the entrance is facing building F, walk towards the fence)
  • MOKE: F I. basement 2., Magnetooptics Laborarory
  • STM: F I. basement 1. - Nanocontacts Laboratory
  • Surface physics 1-2: F III., mezzanine 4., Department of Atomic Physics, Surface Physics Laboratory

Useful information

• Files for the programming exercises:
  • Input file with (x,y) data pairs (Suruasd.txt)
  • 2-panel template project
• Course material of Measurement control and automation (Mérési adatgyűjtés és feldolgozás, in Hungarian)
  • Computer-controlled experiments (slides pdf, in Hungarian).
  • 3-panel template project (zip)
• Communication with instruments:
  • DMM (serial port)
  • Communication with the SDG1025 function generator over VISA
• myDAQ
  • Example code on Fizipedia
  • Function generator with myDAQ
  • Oscilloscope with myDAQ
  • NI-DAQmx .NET Class Library Help

• Instrument manuals:

	SRS 830 lock-in Manual
	Siglent SDG1025 function generator Manual Programming Manual
	Good Will Instek GDM 8246 digital multimeter Manual Programming Manual
	NI MyDAQ card Manual Specifications

• Other materials:
  • Fire and safety information (in Hungarian)
  • Using NI MAX (in Hungarian)

Installing Visual Studio

We use Visual Studio 2017 in the lab computers. For working on your own PC, download and install the Community edition of Visual Studio 2017 or 2019 from the link below:

https://visualstudio.microsoft.com/vs/older-downloads/

You should install Visual Studio with .NET workload.

Installing NI DAQmx

In case you would like to use your own PC for working with the myDAQ card, you also need to install the NI-DAQmx library. Download and install it from here: https://www.ni.com/hu-hu/support/downloads/drivers/download.ni-daqmx.html#348669

The installer has a lot of options. You will need NI MAX (Measurement & Automation Explorer), and .NET 4.5 support.

Lab responsibles (2020)

• PROGRAMMING - Gergő Fülöp,
• SC - Olivér Kürtössy,
• QUARTZ - Tamás Prok,
• ATOMIC - Dániel Molnár,
• ESR - Titusz Fehér
• NMR - Ferenc Simon and Gábor Csősz
• MOKE - Felix Schilberth and Sebastian Werner Schmid
• STM and RRAM - Tímea Nóra Török
• SURFACE PHYSICS 1-2 - Gábor Kiss and Gábor Dobos

Time table (2020)

Identifiers:

Programming exercises

Computer controlled measurement tasks ("small labs")

Laboratory measurements

Research physicist specialization:

Nanotechnology and Materials Science specialization:

Lab report requirements

Submission rules

• The lab reports should be sent as a pdf file to the e-mail address of the lab leaders, as well as to the address.
• The file name should contain the names of the submitting students and the measurement exercise name using the format: stm_smith_white.pdf.
• The lab reports should be submitted within one week till Sunday midnight. In case of difficulties with the electronic submission the printed out reports are also accepted at the secretary of the Department of Physics till Monday noon.
• Once in a semester the submission can be delayed with a week without any punishment. Any other delay yields a subtraction of 15 points (< 1 week delay) or 30 points (> 1 week delay) from the final score (max. 100 points) of each delayed lab report.

Expected style of the lab report

The lab report should follow the style of scientific publications: short abstract, introduction, description of the applied measurement methods, description and discussion of the measurements, conclusions. Supporting information, like the key parts of the measurement code should also be submitted as an appendix. Special attention should be taken on the proper citation of the sources. Note that carefully edited figures are also key requirements in a high quality publication.