Faculty of Electrical Engineering and Computing, Department of Applied Physics

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Main research field

Theoretical physics, Nuclear physics, Multisensor Technology, Instrumentation, Radiation protection, Material science

Specific research areas

Theoretical physics, reactor core analysis, nuclear shielding analysis, sustainability of nuclear fuel resources, nanocomposites.

Techniques/methods

numerical modeling in nuclear engineering

Technology keywords

  • Sensory/Multisensory Technology, Instrumentation related to construction technology
  • Nuclear Physics
  • Sensors/Multisensor Technology, Instrumentation
  • Solid state physics
  • Radiation Protection

Services offered

  • Teaching and Training
  • Preparation of environmental or energy related studies
  • Technical proposals
  • Feasibility study

Market sectors

  • Oil & Gas Producers
  • Alternative Energy
  • Electronic & Electrical Equipment
  • Electricity
  • Software & Computer Services
  • Technology Hardware & Equipment

Short summary (English)

Within in-core fuel management activities nuclear reactor core modeling is performed with the goal of optimal fuel assemblies and burnable absorber loading pattern. In the front end of the nuclear fuel cycle we investigate availability and sustainability of nuclear fuel. In the back end of the nuclear fuel cycle we can evaluate and design nuclear radiation shields. An optimal design of renewable energy sources hybrid system is under development. Precise calibration of the 2 spectrometers: one for kaons (HKS) and other for scattered electrons (HES), for the electro-production and studies of lambda-hypernuclei for targets in the wide-mass region performed in the Hall C of the JLab. Study of influence of proton irradiation on photoluminiscent properties and vibrational dynamics of composite materials. Investigation of dielectric properties of onion like cabron (OLC) based composite materials in the frequency range up to 1 MHz.

Short summary (Croatian)

U okviru gospodarenja gorivom u jezgri nuklearnog reaktora provodi se modeliranje jezgre nuklearnog reaktora s ciljem određivanja optimalnog razmještaja gorivnih elemenata i sagorivih apsorbera. U prednjem dijelu nuklearnog gorivnog ciklusa istražujemo dostatnost i održivost nuklearnog goriva, dok smo u zadnjem dijelu nuklearnog gorivnog ciklusa osposobljeni za evaluaciju i projektiranje štitova od nuklearnog zračenja. Razvija se optimalni dizajn hibridnih sustava obnovljivih izvora energije. Precizno umjeravanje dvaju spektrometara: jedan za kaone (HKS), a drugi za raspršene elektrone (HES), za elektro-tvorbu i proučavanje lambda-hiperjezgara u širem području mase što se izvode u Dvorani C u Jefferson akceleratoru. Izučavanje utjecaja ozračivanja protonima na fotoluminiscencijska svojstva i vibracijsku dinamiku kompozitnih materijala. Istraživanje dielektričnih svojstava kompozita baziranih na OLC u području frekvencija do 1 MHz.

Last update: 21.11.2014. 13:07:20

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