Search Results - "Papamichael, G."

Monte Carlo simulation of the energy loss of low-energy electrons in liquid water by Emfietzoglou, D, Karava, K, Papamichael, G, Moscovitch, M

“…A Monte Carlo code that performs detailed (i.e. event-by-event) simulation of the transport and energy loss of low-energy electrons (approximately 50-10 000…”
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A Monte Carlo track structure code for electrons (approximately 10 eV-10 keV) and protons (approximately 0.3-10 MeV) in water: partitioning of energy and collision events by Emfietzoglou, D, Papamichael, G, Kostarelos, K, Moscovitch, M

“…An event-by-event Monte Carlo simulation code for track structure studies is described. In the present form the code transports protons (approximately 0.3-10…”
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Proton beam profiling in soft biological matter by detailed Monte Carlo simulation by Emfietzoglou, D., Nikjoo, H., Papamichael, G., Pathak, A.

“…Distributions of relevance to proton beam profiling in soft biological matter are obtained by our Monte Carlo track structure code (MC4), which simulates in an…”
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A study on the electronic stopping of protons in soft biological matter by Emfietzoglou, D., Pathak, A., Papamichael, G., Kostarelos, K., Dhamodaran, S., Sathish, N., Moscovitch, M.

“…The electronic stopping of protons in liquid water has been investigated by means of the dielectric function properties. Based on a modified Drude dielectric…”
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Monte Carlo calculation of nanoscale dosimetric distributions of MeV proton tracks with secondary electron transport by Emfietzoglou, D., Paganetti, H., Papamichael, G., Pathak, A.

“…Our MC4 Monte Carlo code which simulates in an event-by-event mode the electronic losses and slowing down process of protons and all their secondary electrons…”
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Monte-Carlo calculations of radial dose and restricted-let for protons in water by Emfietzoglou, D., Karava, K., Papamichael, G., Moscovitch, M.

“…A new Monte-Carlo code for event-by-event simulation of the transport of energetic non-relativistic protons (∼0.5–10 MeV) and all their secondary electrons…”
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A Monte-Carlo study of sub-keV electron transport in water: the influence of the condensed phase by Emfietzoglou, D., Papamichael, G., Androulidakis, I., Karava, K., Kostarelos, K., Pathak, A., Moscovitch, M.

“…We explore the influence of condensed phase in various single-collision and slowing-down distributions of low-energy (sub-keV) electron tracks in water (i.e…”
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Monte-Carlo study of energy deposition by heavy charged particles in sub-cellular volumes by Emfietzoglou, D., Papamichael, G., Pathak, A., Fotopoulos, A., Nikjoo, H.

“…Detailed-history Monte-Carlo code is used to study the energy deposition from proton and alpha particle tracks at the sub-cellular level. Inelastic cross…”
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Monte Carlo Electron Track Structure Calculations in Liquid Water Using a New Model Dielectric Response Function by Emfietzoglou, Dimitris, Papamichael, George, Nikjoo, Hooshang

“…Monte Carlo track structure codes provide valuable information for understanding radiation effects down to the DNA level, where experimental measurements are…”
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A Monte-Carlo code for the detailed simulation of electron and light-ion tracks in condensed matter by Emfietzoglou, D., Papamichael, G., Karava, K., Androulidakis, I., Pathak, A., Phillips, G. W., Moscovitch, M., Kostarelos, K.

“…In an effort to understand the basic mechanism of the action of charged particles in solid radiation dosimeters, we extend our Monte-Carlo code (MC4) to…”
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Charged particle interactions in water: cross-sections and simulation by Emfietzoglou, D., Papamichael, G., Moscovitch, M.

“…Detailed knowledge of the microscopic distribution of interactions and especially of the energy deposited in irradiated matter is of prime interest in gaining…”
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Thrombotic and thromboembolic events in COVID-19 patients: Association with clinical presentation, progression and laboratory findings. Data analysis of a 681 patient cohort by Liontos, A., Biros, D., Tsourlos, S., Athanasiou, L., Milionis, O., Papathanasiou, A., Veliani, C., Kolios, N.-G., Pappa, C., Samanidou, V., Siopis, G., Pargana, E., Nasiou, M., Anagnostopoulos, S.-P., Armata, N.-N., Poulopoulou, A., Filippas-Ntekouan, S., Klouras, E., Christaki, M., Rapti, I., Kosmidou, M., Panteli, A., Barkas, F., Papamichael, G., Tsiakas, I., Vagias, I., Liberopoulos, E., Christaki, E., Milionis, H.

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Combined hamartoma of the retina and retinal pigment epithelium: a bilateral presentation by Blumenthal, E Z, Papamichael, G, Merin, S

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Monte Carlo simulation of charged particle transport in biomatter by Emfietzoglou, D, Papamichael, G, Moscovitch, M

“…Knowledge of the microscopic distribution of interactions in irradiated matter is of fundamental importance for a mechanistic understanding of subsequent…”
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Endothelial dysfunction of conduit arteries in insulin-dependent diabetes mellitus without microalbuminuria by Lekakis, J, Papamichael, C, Anastasiou, H, Alevizaki, M, Desses, N, Souvatzoglou, A, Stamatelopoulos, S, Koutras, D A

“…Previous studies have shown that endothelial dysfunction, an early sign of atherosclerosis, occurs in animal models of diabetes mellitus and in resistance…”
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