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Marko Moscovitch
Marko Moscovitch
Professor of Radiation Medicine, Georgetown University
Verified email at georgetown.edu
Title
Cited by
Cited by
Year
Thermoluminescence dosimetry materials: properties and uses
SWS McKeever, M Moscovitch, PD Townsend
13051995
On the advantages and disadvantages of optically stimulated luminescence dosimetry and thermoluminescence dosimetry.
SW McKeever, M Moscovitch
Radiation protection dosimetry 104 (3), 263-270, 2003
2302003
Monte Carlo simulation of the energy loss of low-energy electrons in liquid water
D Emfietzoglou, K Karava, G Papamichael, M Moscovitch
Physics in Medicine & Biology 48 (15), 2355, 2003
1212003
Thermoluminescent materials for medical applications: LiF: Mg, Ti and LiF: Mg, Cu, P
M Moscovitch, YS Horowitz
Radiation measurements 41, S71-S77, 2006
1172006
Personnel dosimetry using LiF: Mg, Cu, P
M Moscovitch
Radiation protection dosimetry 85 (1-4), 49-56, 1999
1171999
A new paradigm in personal dosimetry using LiF: Mg, Cu, P
J R. Cassata, M Moscovitch, J E. Rotunda, K J. Velbeck
Radiation protection dosimetry 101 (1-4), 27-42, 2002
792002
A Monte Carlo track structure code for electrons (~ 10 eV-10 keV) and protons (~ 0.3-10 MeV) in water: partitioning of energy and collision events
D Emfietzoglou, G Papamichael, K Kostarelos, M Moscovitch
Physics in Medicine & Biology 45 (11), 3171, 2000
782000
Highlights and pitfalls of 20 years of application of computerised glow curve analysis to thermoluminescence research and dosimetry
YS Horowitz, M Moscovitch
Radiation protection dosimetry 153 (1), 1-22, 2013
772013
Thermoluminescence dosimetry card reader heating assembly
W Bruml, M Moscovitch, A Szalanczy
US Patent 4,835,388, 1989
701989
Inelastic collision characteristics of electrons in liquid water
D Emfietzoglou, M Moscovitch
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2002
692002
The application of LiF: Mg, Cu, P to large scale personnel dosimetry: current status and future directions
M Moscovitch, TJ St. John, JR Cassata, PK Blake, JE Rotunda, M Ramlo, ...
Radiation protection dosimetry 119 (1-4), 248-254, 2006
652006
Light Induced Fading in Alpha-Al2O3:C
M Moscovitch, RA Tawil, M Svinkin
Radiation Protection Dosimetry 47 (1-4), 251-253, 1993
641993
Computerized glow curve deconvolution applied to ultralow dose LiF thermoluminescence dosimetry
YS Horowitz, M Moscovitch, M Wilt
Nuclear Instruments and Methods in Physics Research Section A: Accelerators …, 1986
641986
Computerized glow curve deconvolution applied to high dose (102–105 Gy) TL dosimetry
YS Horowitz, M Moscovitch
Nuclear Instruments and Methods in Physics Research Section A: Accelerators …, 1986
591986
A Thin-Layer Al2O3:C Beta TL Detector
MS Akselrod, SWS McKeever, M Moscovitch, D Emfietzoglou, JS Durham, ...
Radiation protection dosimetry 66 (1-4), 105-110, 1996
531996
A microdosimetric track interaction model applied to alpha-particle-induced supralinearity and linearity in thermoluminescent LiF: Mg, Ti
M Moscovitch, YS Horowitz
Journal of Physics D: Applied Physics 21 (5), 804, 1988
491988
Neutron spectrometry using CR-39 track etch detectors
GW Phillips, JE Spann, JS Bogard, T VoDinh, D Emfietzoglou, RT Devine, ...
Radiation protection dosimetry 120 (1-4), 457-460, 2006
482006
An event-by-event computer simulation of interactions of energetic charged particles and all their secondary electrons in water
D Emfietzoglou, G Papamichael, M Moscovitch
Journal of Physics D: Applied Physics 33 (8), 932, 2000
472000
A TLD system based on gas heating with linear time-temperature profile
M Moscovitch, A Szalanczy, WW Bruml, KJ Velbeck, RA Tawil
Radiation Protection Dosimetry 34 (1-4), 361-364, 1990
421990
Personnel TL dosimetry method and apparatus for determination of risk related quantity
M Moscovitch
US Patent 5,065,031, 1991
411991
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