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Marco Povoli

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Marco Povoli

Forsker

Marco Povoli
Telefon: +47 936 35 702
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Avdeling: Microsystems and Nanotechnology
Kontorsted: Oslo

Publikasjoner og ansvarsområder

Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1871394/

An accurate description of the radiation quality of proton beams is a precondition to increase our understanding of radiobiological mechanisms and to develop accurate biological response models for radiotherapy. However, there are few detectors capable of measuring microdosimetric quantities with...

Forfattere Andreas Tefre Samnøy Kristian Ytre-Hauge Eirik Malinen Linh Tran Anatoly Rosenfeld Marco Povoli Angela Chun Ying Kok Anand Summanwar Dieter Røhrich
År 2020
Type Vitenskapelig artikkel
Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1871364/

...– Despite the low contribution of heavy ions to the total fluence in the space radiation environment, their radiobiological effect on the human body are extremely high. In this paper, we investigated the radiation field which resulted from the interaction of Galactic Cosmic Rays (GCRs...

Forfattere Stefania Peracchi P James Pagani Federico Alexey Pan J. Vohradsky David Bolst Dale A. Prokopovich Susanna Guatelli Marco Petasecca Michael Lerch Sang Yun Lee T Inaniwa Naruhiro Matsufuji Marco Povoli Angela Chun Ying Kok Michael Jackson Timothy Squire Anatoly Rosenfeld Linh Tran
År 2020
Type Vitenskapelig artikkel
Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1853746/

Forfattere Shruti Vineet Mehendale Kalliopi Kanaki Marco Povoli Andreas Tefre Samnøy Ganesh Jagannath Tambave Angela Chun Ying Kok Carina Höglund Susann Schmidt Saima Sultana Kazi Isabel Llamas-Jansa Thomas Kittelmann Chung-Chuan Lai Thor-Erik Hansen S. Pospisil Tomáš Slavíček Dieter Røhrich Richard Hall-Wilton
År 2020
Type Vitenskapelig artikkel
Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1879324/

In order to support the high luminosity upgrades at ATLAS and CMS, thinned silicon sensors for hybrid pixel detectors are critical to improve radiation hardness, reduce detector mass, and address high occupancy rates. Because silicon wafer processing tools are not equipped to handle thin wafers, the...

Forfattere Julie Segal Nicolas Lietaer Marco Povoli
År 2019
Type Poster
Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1771979/

Microdosimetry is a particularly powerful method to estimate the relative biological effectiveness (RBE) of any mixed radiation field. This is particularly convenient for therapeutic heavy ion therapy (HIT) beams, referring to ions larger than protons, where the RBE of the beam can vary...

Forfattere David Bolst Susanna Gautelli Linh T. Tran Jeremy Davis Lachlan Chartier Dale A. Prokopovich Alex Pogossov Mark I. Reinhard Marco Petasecca Michael L.F. Lerch Naruhiro Matsufuji Marco Povoli Angela Chun Ying Kok Anand Summanwar Michael Jackson Anatoly B. Rosenfeld
År 2019
Type Vitenskapelig artikkel
Publikasjon
https://www.sintef.no/publikasjoner/publikasjon/1771801/

The response of a 5 μm thin silicon on insulator (SOI) 3D microdosimeter was investigated for single event upset applications by measuring the LET of different high LET ions. The charge collection characteristics of the device was performed using the Ion Beam Induced Charge collection (IBIC...

Forfattere Benjamin James Linh T. Tran David Bolst Stefania Perrachi Jeremy Davis Dale A. Prokopovich Susanna Guatelli Marco Petasecca Michael L.F. Lerch Marco Povoli Angela Chun Ying Kok Marc-Jan Goethem Mitchell Nancarrow Naruhiro Matsufuji Michael Jackson Anatoly B. Rosenfeld
År 2019
Type Vitenskapelig artikkel