Frontiers in Science

Frontiers in Science is a peer-reviewed, open access journal that publishes original research articles as well as review articles in all areas of science and technology.

Marco Panero

Editorial Board Member of Frontiers in Science

Post-doctoral Fellow, Department of Physics, University of Helsinki, Finland

Research Areas

Theoretical High-Energy Physics, Elementary Particle Physics, Lattice QCD, Finite Temperature Field

Education

2003Ph.DPhysics, University of Turin (Italy)
2000M.ScPhysics, University of Turin (Italy)

Experience

2010-present Postdoctoral Researcher, University of Helsinki (Finland)
2008-2010Postdoctoral Researcher, ETH Zurich (Switzerland)
2007-2008Postdoctoral Researcher, University of Regensburg (Germany)
2003-2006 Postdoctoral Researcher, Dublin Institute for Advanced Studies (Ireland)

Publications: Conferences/Workshops/Symposiums/Journals/Books

[1]  Large center vortices and confinement in 3-D Z(2) gauge theory. By F. Gliozzi, M. Panero, P. Provero. Phys.Rev. D66 (2002) 017501.
[2]  Center vortices, magnetic condensate and confinement in a simple gauge system. By F. Gliozzi, M. Panero, P. Provero.
[3]  String effects in Polyakov loop correlators. By M. Caselle, M. Panero, P. Provero. JHEP 0206 (2002) 061.
[4]  String effects in Polyakov loop correlators. By M. Caselle, M. Panero, P. Provero, M. Hasenbusch. Nucl.Phys.Proc.Suppl. 119 (2003) 499-501.
[5]  Percolating cluster of center vortices and confinement. By Ferdinando Gliozzi, Marco Panero, Paolo Provero. Nucl.Phys.Proc.Suppl. 119 (2003) 760-762.
[6]  String effects in the 3-d gauge Ising model. By M. Caselle, M. Hasenbusch, M. Panero. JHEP 0301 (2003) 057.
[7]  Confinement-deconfinement and universal string effects from random percolation. By Ferdinando Gliozzi, Marco Panero, Antonio Rago. Nucl.Phys.Proc.Suppl. 129 (2004) 736-738.
[8]  Effective string picture for confinement at finite temperature: Theoretical predictions and high precision numerical results. By Michele Caselle, Martin Hasenbusch, Marco Panero. Nucl.Phys.Proc.Suppl. 129 (2004) 593-595.
[9]  Effective string picture for confining gauge theories at finite temperature. By Michele Caselle, Marco Panero, Martin Hasenbusch.
[10]  Short distance behavior of the effective string.By M. Caselle, M. Hasenbusch, M. Panero. JHEP 0405 (2004) 032.
[11]  A Numerical study of a confined Q anti-Q system in compact U(1) lattice gauge theory in 4D. By Marco Panero. Nucl.Phys.Proc.Suppl. 140 (2005) 665-667.
[12]  Comparing the Nambu-Goto string with LGT results. By Michele Caselle, Martin Hasenbusch, Marco Panero. JHEP 0503 (2005) 026.
[13]  Random percolation as a gauge theory. By F. Gliozzi, S. Lottini, M. Panero, A. Rago. Nucl.Phys. B719 (2005) 255-274.
[14]  A Numerical study of confinement in compact QED. By Marco Panero. JHEP 0505 (2005) 066.
[15]  Studying glueball masses in non-Abelian LGT with the LW algorithm. By Marco Panero. PoS LAT2005 (2006) 294.
[16]  On the effective string spectrum of the tridimensional Z(2) gauge model. By Michele Caselle, Martin Hasenbusch, Marco Panero. JHEP 0601 (2006) 076.
[17]  QCD string from D0 branes. By M. Billo, M. Caselle, M. Hasenbusch, M. Panero. PoS LAT2005 (2006) 309.
[18]  High precision Monte Carlo simulations of interfaces in the three-dimensional ising model: A Comparison with the Nambu-Goto effective string model. By Michele Caselle, Martin Hasenbusch, Marco Panero. JHEP 0603 (2006) 084.
[19]  Nonlocal regularisation of noncommutative field theories. By T.R. Govindarajan, Seckin Kurkcuoglu, Marco Panero. Mod.Phys.Lett. A21 (2006) 1851-1863.
[20]  Numerical simulations of a non-commutative theory: The Scalar model on the fuzzy sphere. By Marco Panero. JHEP 0705 (2007) 082.
[21]  Quantum field theory in a non-commutative space: Theoretical predictions and numerical results on the fuzzy sphere. By Marco Panero. SIGMA 2 (2006) 081.
[22]  The Interface free energy: Comparison of accurate Monte Carlo results for the 3D Ising model with effective interface models. By Michele Caselle, Martin Hasenbusch, Marco Panero. JHEP 0709 (2007) 117.
[23]  Effective string theory description of the interface free energy. By Marco Billo, Michele Caselle, Livia Ferro, Martin Hasenbusch, Marco Panero. PoS LAT2007 (2007) 294.
[24]  Polyakov loops and SU(2) staggered Dirac spectra. By Falk Bruckmann, Stefan Keppeler, Marco Panero, Tilo Wettig. PoS LAT2007 (2007) 274.
[25]  Polyakov loops and spectral properties of the staggered Dirac operator. By Falk Bruckmann, Stefan Keppeler, Marco Panero, Tilo Wettig. Phys.Rev. D78 (2008) 034503.
[26]  Geometric effects in lattice QCD thermodynamics. By Marco Panero. PoS LATTICE2008 (2008) 175.
[27]  Fluctuations of the baryonic flux-tube junction from effective string theory. By Melanie Pfeuffer, Gunnar S. Bali, Marco Panero. Phys.Rev. D79 (2009) 025022.
[28]  Matrix elements of heavy-light mesons from a fine lattice. By A. Ali Khan, A. Al-Haydari, V. Braun, S. Collins, M. Gockeler, G.N. Lacagnina, M. Panero, A.Schafer et al. PoS CONFINEMENT8 (2008) 167.
[29]  Semileptonic form factors D---> pi, K and B---> pi, K from a fine lattice. By QCDSF Collaboration (A. Al-Haydari et al.). Eur.Phys.J. A43 (2010) 107-120.
[30]  Thermodynamics of the QCD plasma and the large-N limit. By Marco Panero. Phys.Rev.Lett. 103 (2009) 232001.
[31]  Dimensional reduction and the phase diagram of 5d Yang-Mills theory. By A. Kurkela, Ph. de Forcrand, M. Panero. PoS LAT2009 (2009) 050.
[32]  Thermodynamics of the strongly interacting gluon plasma in the large-N limit. By Marco Panero. PoS LAT2009 (2009) 172.
[33]  The phase diagram of Yang-Mills theory with a compact extra dimension. By Philippe de Forcrand, Aleksi Kurkela, Marco Panero. JHEP 1006 (2010) 050.
[34]  Universal signatures of the effective string in finite temperature lattice gauge theories. By Michele Caselle, Alessandra Feo, Marco Panero, Roberto Pellegrini. JHEP 1104 (2011) 020.
[35]  Numerical properties of staggered overlap fermions. By Philippe de Forcrand, Aleksi Kurkela, Marco Panero. PoS LATTICE2010 (2010) 080.
[36]  Thermodynamics of SU(N) Yang-Mills theories in 2+1 dimensions I-The confining phase. By Michele Caselle, Luca Castagnini, Alessandra Feo, Ferdinando Gliozzi, Marco Panero. JHEP 1106 (2011) 142.

Publications: Journals

[1]  M. Caselle, L. Castagnini, F. Gliozzi, A. Feo and M. Panero, Thermodynamics of SU(N) Yang-Mills theories in 2+1 dimensions I-The confining phase, JHEP 06 142 (2011)
[2]  M. Caselle, A. Feo, M. Panero and R. Pellegrini, Universal signatures of the effective string in finite temperature lattice gauge theories, JHEP 04 020 (2011)
[3]  P. de Forcrand, A. Kurkela and M. Panero, The phase diagram of Yang-Mills theory with a compact extra dimension, JHEP 06 050 (2010)
[4]  A. Al-Haydari, A. A. Khan, V. M. Braun, S. Collins, M. Gockeler, G. N. Lacagnina, M. Panero, A. Schafer and G. Schierholz [QCDSF Collaboration], Semileptonic form factors D to pi, K and B to pi, K from a fine lattice, Eur. Phys. J. A 43, 107 (2010)
[5]  M. Panero, Thermodynamics of the QCD plasma and the large-N limit, Phys. Rev. Lett. 103 232001 (2009)
[6]  M. Pfeu_er, G. S. Bali and M. Panero, Fluctuations of the baryonic ux-tube junction from effective string theory, Phys. Rev. D79 025022 (2009)
[7]  F. Bruckmann, S. Keppeler, M. Panero and T. Wettig, Polyakov loops and spectral properties of the staggered Dirac operator, Phys. Rev. D78 034503 (2008)
[8]  M. Caselle, M. Hasenbusch and M. Panero, The interface free energy: Comparison of accurate Monte Carlo results for the 3D Ising model with effective interface models, JHEP 09 117 (2007)
[9]  M. Panero, Numerical simulations of a non-commutative theory: the scalar model on the fuzzy sphere, JHEP 05 082 (2007)
[10]  M. Panero, Quantum field theory in a non-commutative space: Theoretical predic-tions and numerical results on the fuzzy sphere, SIGMA 2 081 (2006)
[11]  T. R. Govindarajan, S. Kurkcuoglu and M. Panero, Nonlocal regularisation of non-commutative field theories, Mod. Phys. Lett. A21 1851 (2006)
[12]  M. Caselle, M. Hasenbusch and M. Panero, High precision Monte Carlo simulations of interfaces in the three-dimensional Ising model: a comparison with the Nambu-Goto effective string model, JHEP 03 084 (2006)
[13]  M. Caselle, M. Hasenbusch and M. Panero, On the effective string spectrum of the tridimensional Z(2) gauge model, JHEP 01 076 (2006)
[14]  M. Panero, A numerical study of confinement in compact QED, JHEP 0505 066 (2005)
[15]  F. Gliozzi, S. Lottini, M. Panero and A. Rago, Random percolation as a gauge theory, Nucl. Phys. B719 255 (2005)
[16]  M. Caselle, M. Hasenbusch and M. Panero, Comparing the Nambu-Goto string with LGT results, JHEP 0503 026 (2005)
[17]  M. Caselle, M. Hasenbusch and M. Panero, Short distance behaviour of the effective string, JHEP 0405 032 (2004)
[18]  M. Caselle, M. Hasenbusch and M. Panero, String effects in the 3-D gauge Ising model, JHEP 0301 057 (2003)
[19]  M. Caselle, M. Panero and P. Provero, String effects in Polyakov loop correlators, JHEP 0206 061 (2002)
[20]  F. Gliozzi, M. Panero and P. Provero, Large center vortices and confinement in 3-D Z(2) gauge theory, Phys. Rev. D66 017501 (2002)

Publications: Conferences/Workshops/Symposiums

[1]  P. de Forcrand, A. Kurkela and M. Panero, Numerical properties of staggered overlap fermions, Proceedings of Science LAT2010 080 (2011)
[2]  M. Caselle, L. Castagnini, A. Feo, F. Gliozzi and M. Panero, Thermodynamics of SU(N) gauge theories in 2+1 dimensions in the T < Tc regime, Proceedings of Science LAT2010 184 (2011)
[3]  A. Kurkela, P. de Forcrand and M. Panero, Dimensional reduction and the phase diagram of 5d Yang-Mills theory, Proceedings of Science LAT2009 050 (2010)
[4]  M. Panero, Thermodynamics of the strongly interacting gluon plasma in the large-N limit, Proceedings of Science LAT2009 172 (2010)
[5]  A. A. Khan, A. Al-Haydari, V. Braun, S. Collins, M. Gockeler, G. N. Lacagnina, M. Panero, A. Schafer and G. Schierholz, Matrix elements of heavy-light mesons from a fine lattice, Proceedings of Science Confinement 8 167 (2009)
[6]  M. Panero, Geometric effects in lattice QCD thermodynamics, Proceedings of Science Lattice 2008 175 (2009)
[7]  F. Bruckmann, S. Keppeler, M. Panero and T. Wettig, Polyakov loops and SU(2) staggered Dirac spectra, Proceedings of Science Lattice 2007 274 (2008)
[8]  M. Billo, M. Caselle, L. Ferro, M. Hasenbusch and M. Panero, Effective string theory description of the interface free energy, Proceedings of Science Lattice 2007 294 (2008)
[9]  M. Billo, M. Caselle, M. Hasenbusch and M. Panero, QCD string from D0 branes, Proceedings of Science LAT2005 309 (2005)
[10]  M. Panero, Studying glueball masses in non-Abelian LGT with the LW algorithm, Proceedings of Science LAT2005 294 (2005)
[11]  M. Panero, A numerical study of a confined Q anti-Q system in compact U(1) lattice gauge theory in 4D, Nucl. Phys. Proc. Suppl. 140 665 (2005)
[12]  M. Caselle, M. Hasenbusch and M. Panero, Effective string picture for con_ning gauge theories at finite temperature, in H. Suganuma, N. Ishii, M. Oka, H. Enyo, T. Hatsuda, T. Kunihiro and K. Yazaki (eds.) Color confinement and hadrons in quantum chromodynamics 460 (2004), World Scientific
[13]  M. Caselle, M. Hasenbusch and M. Panero, Effective string picture for confinement at finite temperature: theoretical predictions and high precision numerical results, Nucl. Phys. Proc. Suppl. 129 593 (2004)
[14]  F. Gliozzi, M. Panero and A. Rago, Confinement-deconfinement and universal string effects from random percolation, Nucl. Phys. Proc. Suppl. 129 736 (2004)
[15]  F. Gliozzi, M. Panero and P. Provero, Percolating cluster of center vortices and confinement, Nucl. Phys. Proc. Suppl. 119 760 (2003)
[16]  M. Caselle, M. Hasenbusch, M. Panero and P. Provero, String effects in Polyakov loop correlators, Nucl. Phys. Proc. Suppl. 119 499 (2003)
[17]  F. Gliozzi, M. Panero and P. Provero, Center vortices, magnetic condensate and confinement in a simple gauge system, in J. Greensite and S. Olejnik (eds.) Confinement, topology, and other non-perturbative aspects of QCD 157 (2002), Kluwer Academic Publishers