PhD téma kiírások

Supervisor Institutenövekvő sorrend Cím
Gábor Anda Institute of Nuclear Techniques Mágneses és hőmérsékleti szimulációk proton ionforrás fejlesztéséhez
Csilla Pesznyak Institute of Nuclear Techniques DOSIMETRIC ANALYSIS OF ADAPTIVE RADIOTHERAPY
David Legrady Institute of Nuclear Techniques Optimization of GUARDYAN for NPP use
Csilla Pesznyak, Institute of Nuclear Techniques PATIENT SPECIFIC QUALITY ASSURANCE IN RADIOTHERAPY
Csilla Pesznyak, Institute of Nuclear Techniques IMAGE QUALITY ANALYSES AND DOSIMETRIC INVESTIGATION IN RADIOLOGY DIAGNOSTIC IMAGING
Tamás Zoltán Szepesi Institute of Nuclear Techniques Exploring visible radiation processes in Wendelstein 7-X stellarator plasmas
Dr. Dunai Dániel Institute of Nuclear Techniques STUDY OF EDGE PLASMA INSTABILITIES IN FUSION PLASMA EXPERIMENTS
Panka István Institute of Nuclear Techniques Development and application of burnup dependent group constant generation methodology by Monte Carlo methods for different generations of nuclear reactors
Dunai Dániel Institute of Nuclear Techniques STUDY OF EDGE PLASMA INSTABILITIES IN FUSION PLASMA EXPERIMENTS
Máté Szieberth Institute of Nuclear Techniques Scenario studies for advanced nuclear fuel cycle options
György Károlyi Institute of Nuclear Techniques Role of time dependent parameters in chaotic systems
Barnaföldi Gergely Gábor Institute of Nuclear Techniques Image Reconstruction Techniques for Proton CT Applications
Dunai Dániel Institute of Nuclear Techniques Experimental study of edge plasma turbulence and transient events in Wendelstein 7-X stellarator
Gábor Anda Institute of Nuclear Techniques Proton ion source development for neutron sources
Csilla Pesznyak Institute of Nuclear Techniques IMAGE QUALITY AND DOSIMETRIC ANALYZES OF MEDICAL IMAGING DEVICES
ASZÓDI Attila Dr. Institute of Nuclear Techniques The role of nuclear energy in Europe's energy supply in the short, medium and long term, with particular reference to security of supply and sustainability aspects
David Legrady Institute of Nuclear Techniques Population-based Variance Reduction for dynamic Monte Carlo and fixed-source calculations
Márton Kormos Department of Theoretical Physics Correlations in low dimensional quantum systems
Rácz István Department of Theoretical Physics Constructing generic binary black hole initial data
Laszlo Szunyogh Department of Theoretical Physics Magnetic correlations in novel two-dimensional heterostructures and molecular magnets
Zoltan Bajnok Department of Theoretical Physics Integrable aspects of the AdS/CFT duality
Laszlo Szunyogh Department of Theoretical Physics Spin-spiral states in ultrathin films and nanowires
Ódor Géza Department of Theoretical Physics Investigation of heterogeneity effects in network models
Miklós Zétényi Department of Theoretical Physics Phenomenology of baryon resonances in effective Lagrangian models
Géza Ódor Department of Theoretical Physics Investigation of heterogeneity effects in network models
Márk Géza istván Department of Theoretical Physics Wave packet dynamical calculations for heterostructures of 2D materials
András Pályi Department of Theoretical Physics Geometry in condensed-matter physics and quantum information
Márton Kormos Department of Theoretical Physics Dynamics of open quantum systems
Levente Rózsa Department of Theoretical Physics Dynamics of Yu-Shiba-Rusinov states in magnet-superconductor hybrid systems
Török János Department of Theoretical Physics Colllective abrasion of pebbles
Laszlo Szunyogh Department of Theoretical Physics Spin-spiral states in ultrathin films and nanowires
Karlo Penc Department of Theoretical Physics Excitations and quantum scars in Mott insulators and superconductors with strong spin-orbit coupling
Rácz, István Department of Theoretical Physics Investigation of the stability of the inner Cauchy horizon of black holes.
Levente Rózsa Department of Theoretical Physics Dynamics of Yu-Shiba-Rusinov states in magnet-superconductor hybrid systems
Gábor Takács Department of Theoretical Physics Dynamics in low-dimensional interacting quantum field theories
Tamás Börzsönyi Department of Theoretical Physics Flow analysis by digital image processing
László Udvardi Department of Theoretical Physics Magnetic structure of thin films and clusters
Tamás Börzsönyi Department of Theoretical Physics Flow analysis by digital image processing
Levente Rózsa Department of Theoretical Physics Topology and magnonic transport in fluctuating magnetic nanostructures
Balázs Dóra Department of Theoretical Physics Quantum dynamics in non-hermitian systems
Laszlo Szunyogh Department of Theoretical Physics Magnetism of chemically disordered alloys from first principles
Wolf György Department of Theoretical Physics Properties of the high density strongly interacting matter and neutron stars
Levente Rózsa Department of Theoretical Physics Topology and magnonic transport in fluctuating magnetic nanostructures
Levente Rózsa Department of Theoretical Physics Dynamics of Yu-Shiba-Rusinov states in magnet-superconductor hybrid systems
András Pályi Department of Theoretical Physics Spin-based quantum computing
Török János Department of Theoretical Physics Colllective abrasion of pebbles
Török János Department of Theoretical Physics Colllective abrasion of pebbles
Levente Rózsa Department of Theoretical Physics Exotic spin interactions in magnetic multilayers
Géza Ódor Department of Theoretical Physics Investigation of heterogeneity effects in network models
Török János Department of Theoretical Physics Colllective abrasion of pebbles
Levente Rózsa Department of Theoretical Physics Topology and magnonic transport in fluctuating magnetic nanostructures
Péter Pál Lévay Department of Theoretical Physics The geometry of segmented strings and quantum entanglement
Gábor Takács Department of Theoretical Physics Dynamics in strongly correlated quantum systems
Török János Department of Theoretical Physics Colllective abrasion of pebbles (SH)
Levente Rózsa Department of Theoretical Physics Dynamics of Yu-Shiba-Rusinov states in magnet-superconductor hybrid systems
Török János Department of Theoretical Physics Colllective abrasion of pebbles
Laszlo Szunyogh Department of Theoretical Physics Magnetic and chemical short-range order in itinerant magnets
Levente Rózsa Department of Theoretical Physics Dynamics of Yu-Shiba-Rusinov states in magnet-superconductor hybrid systems
Laszlo Szunyogh Department of Theoretical Physics Magnetic correlations in novel two-dimensional heterostructures and molecular magnets
Levente Rózsa Department of Theoretical Physics Topology and magnonic transport in fluctuating magnetic nanostructures
Laszlo Szunyogh Department of Theoretical Physics Magnetism of chemically disordered alloys from first principles
Karlo Penc Department of Theoretical Physics Ground state properties and excitations in Mott insulators and superconductors with strong spin-orbit coupling
András Pályi Department of Theoretical Physics Spin-based quantum computing
Balázs Dóra Department of Theoretical Physics Quantum dynamics in non-hermitian systems
Géza Ódor Department of Theoretical Physics Investigation of heterogeneity effects in network models
Makk Péter Department of Physics TUNING CORRELATIONS IN TWISTED VAN DER WAALS STRUCTURES
Makk Péter Department of Physics TUNING CORRELATIONS IN TWISTED VAN DER WAALS STRUCTURES
Zoltán Németh Department of Physics Elucidating the structure-function relationship in functional molecules with state-of-the-art X-ray spectroscopies and scattering
Rácz István Department of Physics Initializing dynamical black hole evolutions
Makk Péter Department of Physics Tuning correlations in twisted van der Waals structures
Makk Péter Department of Physics TUNING CORRELATIONS IN TWISTED VAN DER WAALS STRUCTURES
Sándor Bordács Department of Physics Magneto-optical spectroscopy in topogical semimetals
Péter Makk Department of Physics Tuning correlations in twisted van der Waals structures
Ferenc Simon Department of Physics Optically detected magnetic resonance on qubit candidate solid state realizations
Szabolcs Csonka Department of Physics Superconducting semiconductor hybrids for future qubit
Makk Péter Department of Physics Spintronics using 2D ferromagnets
András Wacha Department of Physics Synergetic Combination of Experiment and Simulation in the Study of the Interaction between Phospholipid Membranes and Guest Molecules
David Szaller Department of Physics Magnetic and magnetoelectric properties of van der Waals magnets
Zsolt Kis Department of Physics Polariation control of light in long distance optical fiber links
Katalin Kamaras Department of Physics Preparation and nanoscale investigation of hybrid molecular systems
Sándor Bordács Department of Physics Magneto-optical spectroscopy in topogical semimetals
Wolf György Department of Physics Properties of the high density strongly interacting matter and neutron stars
Peter Nemes-Incze Department of Physics Investigating the properties of 2D topological electron systems
Wolf György Department of Physics Clone of Properties of the high density strongly interacting matter and neutron stars
Zsolt Kis Department of Physics Enhancing atom-light coupling with dielectric nanostructures
Peter Domokos Department of Physics Nonlinear quantum optics with cold atoms in cavity QED
Wolf György Department of Physics Properties of the high density strongly interacting matter: simulations for the CBM detector
Szabolcs Csonka Department of Physics Topological superconducting nanostructures
Pekker Áron Department of Physics Near-field infrared microscopy of low-dimensional systems
Csonka Szabolcs Department of Physics Spintronics using 2D van der Waals heterostructures
Peter Domokos Department of Physics Nonlinear quantum optics with cold atoms in cavity QED
Halbritter András Ernő Department of Physics Simulation of memristive computing architectures with realistic device characteristics
Peter Nemes-Incze Department of Physics Investigating the properties of 2D topological electron systems
Levente Tapaszto Department of Physics Engineering moire superlattices in 2D heterostructures
Gergő Thiering Department of Atomic Physics Atomistic-scale simulations of point defects acting as qubits in diamond and other semiconductors
Ádám Gali Department of Atomic Physics Ab initio simulation of point defects in solids acting as qubits
Gergő Thiering Department of Atomic Physics Atomistic-scale simulations of point defects acting as qubits in diamond and other semiconductors
Ádám Gali Department of Atomic Physics Ab initio simulation of point defects in solids acting as qubits
Krisztián Lengyel Department of Atomic Physics Rare earth ions in nanocrystals for single photon sources
Gábor Piszter Department of Atomic Physics Investigation and application of biological and bioinspired photonic nanoarchitectures
Lengyel Krisztián Department of Atomic Physics Rare earth ions in nanocrystals for single photon sources
Tibor Höltzl Department of Atomic Physics Interaction of metal clusters and doped graphene: from electronic structure to electrocatalysis
Ádám Gali Department of Atomic Physics Singe spin resonance in solids by optical means
Sándor Lenk Department of Atomic Physics Development of precision fluorescence measurement techniques for biological and materials science applications
Gergő Thiering Department of Atomic Physics Atomistic-scale simulations of point defects acting as qubits in diamond and other semiconductors