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personal data approved: 2019. IV. 22.
Personal data
Balázs Gergely Madas
name Balázs Gergely Madas
name of institution
doctoral school
ELTE Doctoral School of Physics (Supervisor)
ELTE Doctoral School of Environmental Sciences (Announcer of research topic)
PE Doctoral School of Chemistry and Environmental Sciences (Announcer of research topic)
Contact details
E-mail address madas.balazsenergia.mta.hu
phone number +36 1 392-2222/1981
Academic title
scientific degree, title Ph.D.
year degree was obtained 2013
discipline to which degree belongs physics
institution granting the degree Eötvös Loránd University
Employment
2009 - MTA Energiatudományi Kutatóközpont (research institute, not university)
other (not specified) (tudományos munkatárs)
Thesis topic supervisor
number of doctoral students supervised until now 0
number of students who fulfilled course requirements 0
students who obtained their degrees:
present PhD students:
(50%) Emese Judit Drozsdik (PhD) (2020/08)  DSP2-ELTE
  Thesis topic proposals
Research
research area Numerical modelling of the biological effects of ionizing radiation with particular attention on cell death and its role in mutagenesis and carcinogenesis.
research field in which current research is conducted physics
biology
Publications
2019

Madas BG, Schofield PN: SURVEY ON DATA MANAGEMENT IN RADIATION PROTECTION RESEARCH, RADIATION PROTECTION DOSIMETRY 182: ncy250
type of document: Journal paper/Article
language: English
URL 
2018

Kreuzer M, Auvinen A, Cardis E, Durante M, Harms-Ringdahl M, Jourdain JR, Madas BG, Ottolenghi A, Pazzaglia S, Prise KM, Quintens R, Sabatier L, Bouffler S: Multidisciplinary European Low Dose Initiative (MELODI): strategic research agenda for low dose radiation risk research, RADIATION AND ENVIRONMENTAL BIOPHYSICS 57: (1) pp. 5-15.
type of document: Journal paper/Article
number of independent citations: 6
language: English
URL 
2018

Madas BG, Drozsdik EJ: Effects of mucus thickness and goblet cell hyperplasia on microdosimetric quantities characterizing the bronchial epithelium upon radon exposure, INTERNATIONAL JOURNAL OF RADIATION BIOLOGY 94: (11) pp. 967-974.
type of document: Journal paper/Article
language: English
URL 
2018

Madas BG, Drozsdik EJ: COMPUTATIONAL MODELING OF LOW DOSE HYPER-RADIOSENSITIVITY AND INDUCED RADIORESISTANCE APPLYING THE PRINCIPLE OF MINIMUM MUTATION LOAD, RADIATION PROTECTION DOSIMETRY 182: ncy227
type of document: Journal paper/Article
language: English
URL 
2016

Madas BG: Radon induced hyperplasia: effective adaptation reducing the local doses in the bronchial epithelium, JOURNAL OF RADIOLOGICAL PROTECTION 36: (3) pp. 653-666.
type of document: Journal paper/Article
language: English
Full text 
2016

Madas BG: Radon Exposure and the Definition of Low Doses - The Problem of Spatial Dose Distribution, HEALTH PHYSICS 111: (1) pp. 47-51.
type of document: Journal paper/Article
number of independent citations: 1
language: English
URL 
2011

Farkas Á, Hofmann W, Balásházy I, Szőke I, Madas BG, Moustafa M: Effect of site-specific bronchial radon progeny deposition on the spatial and temporal distributions of cellular responses, RADIATION AND ENVIRONMENTAL BIOPHYSICS 50: (2) pp. 281-297.
type of document: Journal paper/Article
number of independent citations: 8
language: English
URL 
2011

Madas BG, Balásházy I: Mutation induction by inhaled radon progeny modeled at the tissue level, RADIATION AND ENVIRONMENTAL BIOPHYSICS 50: (4) pp. 553-570.
type of document: Journal paper/Article
number of independent citations: 9
language: English
URL 
2009

Balásházy I, Farkas Á, Madas BG, Hofmann W: Non-linear relationship of cell hit and cell transformation probabilities in a low dose of inhaled radon progenies., JOURNAL OF RADIOLOGICAL PROTECTION 29: (2) pp. 147-162.
type of document: Journal paper/Article
number of independent citations: 8
language: English
URL 
2008

Balásházy I, Hofmann W, Farkas Á, Madas BG: Three-dimensional model for aerosol transport and deposition in expanding and contracting alveoli., INHALATION TOXICOLOGY 20: (6) pp. 611-621.
type of document: Journal paper/Article
number of independent citations: 33
language: English
URL 
Number of independent citations to these publications:65 
Scientometric data
list of publications and citations
number of scientific publications that meet accreditation criteria:
38
number of scientific publications:
81
monographs and professional books:
0
monographs/books in which chapters/sections were contributed:
0 
number of independent citations to scientific publications and creative works:
81


2019. IX. 13.
ODT ülés
Az ODT következő ülésére 2019. november 22-én 10.00 órakor kerül sor a Semmelweis Egyetem Szenátusi termében (Bp. Üllői út 26. I. emelet).

 
All rights reserved © 2007, Hungarian Doctoral Council. Doctoral Council registration number at commissioner for data protection: 02003/0001. Program version: 2.2358 ( 2017. X. 31. )