G
G. Di Carlo
Researcher at Istituto Nazionale di Fisica Nucleare
Publications - 65
Citations - 612
G. Di Carlo is an academic researcher from Istituto Nazionale di Fisica Nucleare. The author has contributed to research in topics: Lattice gauge theory & Lattice field theory. The author has an hindex of 14, co-authored 61 publications receiving 557 citations.
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Journal ArticleDOI
The SABRE project and the SABRE Proof-of-Principle
M. Antonello,E. L. Barberio,T. Baroncelli,Jay Burton Benziger,Lindsey J. Bignell,I. Bolognino,Frank Calaprice,S. Copello,D. D'Angelo,Giulia D'imperio,I. Dafinei,G. Di Carlo,Marcella Diemoz,A. Di Ludovico,W. Dix,Alan R. Duffy,Alan R. Duffy,F. Froborg,G. K. Giovanetti,Eric W. Hoppe,An. Ianni,L. Ioannucci,S. Krishnan,Gregory Lane,I. Mahmood,Andrea Mariani,M. Mastrodicasa,P. Montini,Jeremy Mould,Jeremy Mould,Francesco Nuti,D. Orlandi,Mark W. Paris,V. Pettinacci,L. Pietrofaccia,D. Prokopovic,Shahram Rahatlou,N. Rossi,Adam Sarbutt,E. Shields,Michael Souza,Andrew Stuchbery,B. Suerfu,C. Tomei,V. Toso,Phillip Urquijo,C. Vignoli,M. Wada,Anton Wallner,Anthony G. Williams,Jingke Xu +50 more
TL;DR: The SABRE experiment as discussed by the authors aims to achieve the lowest background rate for a NaI(Tl) experiment (order of 0.1 cpd/kg/keVee in the energy region of interest for dark matter) by operating high-purity crystals inside a liquid scintillator veto for active background rejection.
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New proposal for numerical simulations of theta-vacuum-like systems.
TL;DR: A new approach to perform numerical simulations of theta-vacuum-like systems, test it in two analytically solvable models, and apply it to CP3.
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New proposal for including dynamical fermions in lattice gauge theories: The compact-QED case.
TL;DR: A new method for including dynamical fermions in lattice gauge theories that can increase the efficiency of Monte Carlo simulations by significantly decreasing the amount of required computer time is presented.
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Search for time dependence of the 137Cs decay constant
TL;DR: In this paper, the activity of a 137C source has been measured by means of a HPGe detector installed deep underground in the Gran Sasso Laboratory, which allowed the search for time variations of the decay constant with periods from a few hours to 1 year.
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Search for correlations between solar flares and decay rate of radioactive nuclei
TL;DR: In this paper, the decay rate of three different radioactive sources (40 K, 137 Cs and nat Th) has been measured with NaI and Ge detectors, and data have been analyzed to search for possible variations in coincidence with the two strongest solar flares of the years 2011 and 2012.