I. Manthos
Aristotle University of Thessaloniki
5 Papers
10 Citations
I. Manthos is an academic researcher from Aristotle University of Thessaloniki. The author has contributed to research in topics: MicroMegas detector & Phenomenological model. The author has an hindex of 1, co-authored 5 publications. Previous affiliations of I. Manthos include National Technical University of Athens & CERN.
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Papers
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Modeling the Timing Characteristics of the PICOSEC Micromegas Detector
J. Bortfeldt,Florian M. Brunbauer,C. David,D. Desforge,G. Fanourakis,Michele Gallinaro,Francisco Garcia,Ioannis Giomataris,Thomas Gustavsson,F.J. Iguaz,M. Kebbiri,K. Kordas,C. Lampoudis,P. Legou,M. Lisowska,J. Liu,M. Lupberger,O. Maillard,I. Manthos,Hans Muller,V. Niaouris,Eraldo Oliveri,Thomas Papaevangelou,K. Paraschou,Michal Pomorski,Binbin Qi,Filippo Resnati,Leszek Ropelewski,Dimitrios Sampsonidis,L. Scharenberg,Thomas Schneider,L. Sohl,M. van Stenis,Y. Tsipolitis,Spyros Tzamarias,A. Utrobicic,R. Veenhof,Xin Wang,Sebastian N. White,Zhiyong Zhang,Y. Zhou +40 more
TL;DR: In this paper, a phenomenological model is constructed and presented to gain insight on the main physical mechanisms causing the observed behavior of PICOSEC Micromegas detector, which is based on a simple mechanism of "time gain per interaction" and employs a statistical description of the avalanche evolution.
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Modeling the Timing Characteristics of the PICOSEC Micromegas Detector
J. Bortfeldt,Florian M. Brunbauer,C. David,D. Desforge,G. Fanourakis,Michele Gallinaro,Francisco Garcia,Ioannis Giomataris,Thomas Gustavsson,F.J. Iguaz,M. Kebbiri,K. Kordas,C. Lampoudis,P. Legou,M. Lisowska,J. Liu,M. Lupberger,O. Maillard,I. Manthos,Hans Muller,V. Niaouris,Eraldo Oliveri,Thomas Papaevangelou,K. Paraschou,Michal Pomorski,Binbin Qi,Filippo Resnati,Leszek Ropelewski,Dimitrios Sampsonidis,L. Scharenberg,Thomas Schneider,L. Sohl,M. van Stenis,Y. Tsipolitis,Spyros Tzamarias,A. Utrobicic,R. Veenhof,Xin Wang,Sebastian N. White,Zhiyong Zhang,Y. Zhou +40 more
TL;DR: In this paper, a phenomenological model is constructed and presented to gain insight on the main physical mechanisms causing the observed behavior of the PICOSEC Micromegas detector.
Precise Charged Particle Timing with the PICOSEC Detector
J. Bortfeldt,Florian M. Brunbauer,C. David,D. Desforge,G. Fanourakis,J. Franchi,Michele Gallinaro,Francisco Garcia,I. Giomataris,Thomas Gustavsson,Claude Guyot,F.J. Iguaz,M. Kebbiri,K. Kordas,P. Legou,J. Liu,M. Lupberger,O. Maillard,I. Manthos,Hans Muller,V. Niaouris,Eraldo Oliveri,Th. Papaevangelou,K. Paraschou,Michal Pomorski,Binbin Qi,Filippo Resnati,Leszek Ropelewski,Dimitrios Sampsonidis,Thomas Schneider,Ph. Schwemling,L. Sohl,M. van Stenis,P. Thuiner,Y. Tsipolitis,Spyros Tzamarias,R. Veenhof,X. Wang,Sebastian N. White,Zhiyong Zhang,Y. Zhou +40 more
TL;DR: In this article, a two-stage MicroMegas detector coupled with a Cherenkov radiator equipped with a photocathode has been developed to achieve a time resolution of 24\,ps for 150\,GeV muons and 76\,p for single photoelectrons.
6
The Micromegas Project for the ATLAS New Small Wheel
I. Manthos,I. Maniatis,Ioannis Maznas,M. Tsopoulou,P. Paschalias,T. Koutsosimos,S. Kompogiannis,Ch. Petridou,S.E. Tzamarias,K. Kordas,C. Lampoudis,I. Tsiafis,Dimitrios Sampsonidis +12 more
TL;DR: The MicroMegas technology was selected by the ATLAS experiment at CERN to be adopted for the Small Wheel upgrade of the Muon Spectrometer, dedicated to precision tracking, in order to meet the requirements of the upcoming luminosity upgrade at the Large Hadron Collider.
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Precise charged particle timing with the PICOSEC detector
J. Bortfeldt,Florian M. Brunbauer,C. David,D. Desforge,G. Fanourakis,J. Franchi,Michele Gallinaro,Francisco Garcia,I. Giomataris,Thomas Gustavsson,Claude Guyot,F.J. Iguaz,M. Kebbiri,K. Kordas,P. Legou,J. Liu,M. Lupberger,O. Maillard,I. Manthos,Hans Muller,V. Niaouris,Eraldo Oliveri,Th. Papaevangelou,K. Paraschou,Michal Pomorski,Binbin Qi,Filippo Resnati,Leszek Ropelewski,Dimitrios Sampsonidis,Thomas Schneider,Ph. Schwemling,L. Sohl,M. van Stenis,P. Thuiner,Y. Tsipolitis,Spyros Tzamarias,R. Veenhof,X. Wang,Sebastian N. White,Zhiyong Zhang,Y. Zhou +40 more
- 10 Jan 2019
TL;DR: In this article, a two-stage MicroMegas detector coupled with a Cherenkov radiator equipped with a photocathode has been developed, which yields a time resolution of 24 ps for 150 GeV muons and 76 ps for single photoelectrons.