Dr. Peter Rakyta

Research Fellow
  Forensic Physics Expert

• About Me
• Contacts
• CV

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Image courtesy of Stuart Miles at FreeDigitalPhotos.net and Vigh Mate at eqt.elte.hu

Information technology

Participation in projects

• GOP-1.1.1-11-2011-0006: Performing functionality tests on mobile office applications.
• TECH_08_A2-SZOMIN08: Source-code quality assurance in the OpenOffice project.
• KMOP-1.1.2-08/1-2008-0002: Development of Python based extension modules with adaptive user interface.
• GOP-1.3.1-11/A-2011-0186: Change tracking development for ODF documents.

Member of the "Advancing open standards for the information society" (OASIS) community (2013.-). (OASIS)

Physics

• IBM Quantum Challenge 2020

• Eötvös Quantum Transport Utilities (EQuUs)

EQuUs is free software distributed under the GNU General Public License. EQuUs is designed for transport calculations implementing the equilibrium Greens function formalism developed in:

S. Sanvito, C.~J. Lambert, J.~H. Jefferson and A. M. Bratkovsky, Phys. Rev. B 59, 11936 (1999).
I. Rungger and S. Sanvito, Phys. Rev. B 78, 035407 (2008).
P. Rakyta, E. Tóvári, M. Csontos, Sz. Csonka, A. Csordás, J. Cserti, Phys. Rev. B 90, 125428 (2014).

• Doctoral (Ph.D.) dissertation: Theoretical description of photoemission and scanning tunneling microscope measurements on Dirac-like electrons

Summary of the doctoral (Ph.D.) dissertation (pdf)
Thesis of doctoral (Ph.D.) dissertation (pdf)
On-line version of the doctoral (Ph.D.) dissertation (pdf)

• MSc thesis: Semiclassical description of the edge-effects in graphene structures (pdf)

• Undergraduate scientific research activities

  Peculiar nature of the snake states in graphene (pdf), (kivonat)
  Electron focusing in normal-superconductor systems (pdf), (kivonat)

• Solid-state physics

  Physical properties of semiconductors (pdf)
  Thermo-mechanical response of nematic liquid crystals (pdf)
  Effect of mechanical strain on the Freéderiksz-transition in nematic liquid crystals (pdf)
  Study of amorphous metals (pdf)
  Electron microscope (pdf)
  Rtg diffraction (pdf)
  Calorimetry (pdf)
  Study of semiconductors (pdf)
  Meissner effect (pdf)

• Nuclear physics

  Nuclear spectroscopy (pdf)
  Dosimetry and radiation safety exercise (pdf)
  Mössbauer effect (pdf)
  Compton effect (pdf)
  

• Modern physics (created by Mezei Márk and Rakyta Péter)

  The Frank-Hertz experiment (pdf)
  Molecular spectroscopy (pdf)
  Black-body radiation (pdf)
  Study of liquid crystals (pdf)
  Zeeman effect (pdf)
  Holography (pdf)
  Electron spin resonance (pdf)
  

• Classical physics

  Measurement of the gravitational acceleration (pdf)
  Measurement of elastic constants (pdf)
  Study of mechanical vibrations (pdf)
  Thermoelectric effect (pdf)
  Thermal capacity (pdf)
  Studies of phase-transitions (pdf)
  Magnetic susceptibility (pdf)
  Measurements with optical microscope (pdf)
  Measurement of the wavelength and dispersion of the light (pdf)
  Diffraction (pdf)