职　　称：Full Professor教授
电子邮件：ruggieri@lzu.edu.cn
研究方向：Phase diagram of Quantum Chromodynamics, Relativistic heavy ion collisions.
主要学习、工作简历：
November 1996-July 2001: Master degree in Physics, Bari University, Italy.
November 2001-March 2005: PhD in Theoretical Physics, Bari University, Italy.
January 2003-July 2003: Long term visitor at CERN, Geneve, Switzerland.
March 2005-June 2005: Postdoctoral project collaborator, Bari University, Italy.
June 2005-June 2009: Postdoctoral researcher, Bari University, Italy.
September 2009-September 2011: Postdoctoral researcher, Yukawa Institute for Theoretical Physics, Kyoto, Japan.
November 2011-November 2015: Postdoctoral researcher, Catania University, Italy.
December 2015-June 2017: Young research fellow awarded by the Chinese Academy of Science President’s International Fellowship Initiative, University of Chinese Academy of Sciences, Beijing, China.
Jul7 2017-: Professor, Lanzhou University, China.
学术兼职：
担任以下学术期刊审稿人: Physical Review D, Physical Review C, Chinese Physics C, Physical Review Letters, Journal of High Energy Physics.
主讲课程：
本科生课程：Nuclear Physics in English;
研究生课程: Theoretical Physics.
获奖统计：
January 2014: National Scientific Abilitation for Associate Professor, scientific sector FIS02A2: Theoretical Physics of Fundamental Interactions.
December 2015: Awarded with the CAS President’s International Fellowship Initiative, grant number 2015PM008.
主要科研成果：
代表论文:
[1] Pressure evolution and flux tubes formation in the Glasma produced in high energy nuclear collisions,
Marco Ruggieri, Lucia Oliva, Guang Xiong Peng and Vincenzo Greco,
arXiv:1707.07956 [nucl-th].
[2] Impact of early stage non-equilibrium dynamics on photon production in relativistic heavy ion collisions,
Lucia Oliva, Marco Ruggieri, Salvatore Plumari, Francesco Scardina and Vincenzo Greco,
J.Phys.Conf.Ser. 832, no. 1, 012038 (2017).
[3] Photons from the Early Stages of Relativistic Heavy Ion Collisions,
Lucia Oliva, Marco Ruggieri, Salvatore Plumari, Francesco Scardina, Guang Xiong Peng and Vincenzo Greco,
Phys.Rev.C 96, no. 1, 014914 (2017).
[4] Effect of pre-equilibrium phase on $R_{AA}$ and $v_2$ of heavy quarks in heavy ion collisions,
Santosh Kumar Das, Marco Ruggieri, Francesco Scardina, Salvatore Plumari and Vincenzo Greco,
J.Phys.G 44, no. 9, 095102 (2017).
[5] Chiral phase transition of quark matter in the background of parallel electric and magnetic fields,
Marco Ruggieri and Guang Xiong Peng,
Nucl.Sci.Tech.27, no. 6, 130 (2016).
[6] Modeling early time dynamics of relativistic heavy ion collisions,
L.Oliva, Marco Ruggieri, A. Puglisi, S. Plumari, F. Scardina, G. Coci and V. Greco,
J.Phys.Conf.Ser.742, no. 1, 012024 (2016).
[7] Chiral medium produced by parallel electric and magnetic fields,
Marco Ruggieri, G. X. Peng and M. Chernodub,
EPJ Web Conf.129, 00037 (2016).
[8] Influence of chiral chemical potential, parallel electric, and magnetic fields on the critical temperature of QCD,
Marco Ruggieri, Z.Y.Lu and G.X.Peng,
Phys.Rev.D94, no. 11, 116003 (2016).
[9] Early Stages of Relativistic Heavy Ion Collisions,
L.Oliva, Marco Ruggieri, A.Puglisi, S.Plumari, F.Scardina and V.Greco,
PoS BORMIO 2016, 006 (2016).
[10] Chiral Relaxation Time at the Crossover of Quantum Chromodynamics,
Marco Ruggieri, G.X.Peng and M.Chernodub,
Phys.Rev.D 94, no. 5, 054011 (2016).
[11] Modelling early stages of relativistic heavy-ion collisions,
Marco Ruggieri, A.Puglisi, L.Oliva, S.Plumari, F.Scardina and V.Greco,
EPJ Web Conf.117, 03014 (2016).
[12] Quark matter in a parallel electric and magnetic field background: Chiral phase transition and equilibration of chiral density,
Marco Ruggieri and G.X.Peng,
Phys.Rev.D93, no. 9, 094021 (2016).
[13] Critical Temperature of Chiral Symmetry Restoration for Quark Matter with a Chiral Chemical Potential,
Marco Ruggieri and G.X.Peng,
J.Phys.G 43, no. 12, 125101 (2016).
[14] Critical Temperature of Chiral Symmetry Restoration for Quark Matter with a Chiral Chemical Potential,
Marco Ruggieri and G.X.Peng,
arXiv:1602.03651 [hep-ph]
[15] Modelling Early Stages of Relativistic Heavy Ion Collisions: Coupling Relativistic Transport Theory to Decaying Color-electric Flux Tubes,
Marco Ruggieri, A.Puglisi, L.Oliva, S.Plumari, F.Scardina and V.Greco, Phys.Rev.C92, 064904 (2015).
[16] Quarks production in the quark–gluon plasma created in relativistic heavy ion collisions,
Marco Ruggieri, S.Plumari, F.Scardina and V.Greco,
Nucl.Phys.A941, 201 (2015).
[17] Heavy quark diffusion in the pre-equilibrium stage of heavy ion collisions,
S.K.Das, Marco Ruggieri, S.Mazumder, V.Greco and J.E.Alam,
J.Phys.G42, no. 9, 095108 (2015).
[18] Dynamics of quark-gluon plasma produced in heavy ion collisions,
Marco Ruggieri, F.Scardina, S.Plumari and V.Greco,
EPJ Web Conf.80, 00037 (2014).
[19] Impact of nonequilibrium initial conditions with a saturation scale on elliptic flow in heavy ion collisions,
F.Scardina, Marco Ruggieri, S.Plumari and V.Greco,
Nucl.Phys.A932, 484 (2014).
[20] Critical Endpoint and Inverse Magnetic Catalysis for Finite Temperature and Density Quark Matter in a Magnetic Background,
Marco Ruggieri, L.Oliva, P.Castorina, R.Gatto and V.Greco,
Phys.Lett.B734, 255 (2014).
[21] Energy density fluctuations in Early Universe,
G.L.Guardo, V.Greco and Marco Ruggieri,
AIP Conf.Proc. 1595, 224 (2014).
[22] Elliptic Flow and Shear Viscosity of the Shattered Color Glass Condensate,
Marco Ruggieri, F.Scardina, S.Plumari and V.Greco,
J.Phys.Conf.Ser.527, 012018 (2014).
[23] Thermalization, Isotropization and Elliptic Flow from Nonequilibrium Initial Conditions with a Saturation Scale,
Marco Ruggieri, F.Scardina, S.Plumari and V.Greco,
Phys.Rev.C89, no. 5, 054914 (2014).
[24] Thermodynamics of the Quark-Gluon Plasma in Terms of Quasiparticles and Polyakov Line Condensates,
L.Oliva, P.Castorina, V.Greco and Marco Ruggieri,
Phys.Rev.D88, no. 9, 097502 (2013).
[25] Renormalized vs Nonrenormalized Chiral Transition in a Magnetic Background,
Marco Ruggieri, M.Tachibana and V.Greco,
JHEP 1307, 165 (2013).
[26] Elliptic Flow from Non-equilibrium Initial Condition with a Saturation Scale,
Marco Ruggieri, F.Scardina, S.Plumari and V.Greco,
Phys.Lett.B727, 177 (2013).
[27] Crystalline color superconductors,
R.Anglani, R.Casalbuoni, M.Ciminale, N.Ippolito, R.Gatto, M.Mannarelli and Marco Ruggieri,
Rev.Mod.Phys.86, 509 (2014).
[28] Quasiparticles and $Z(N)-$ lines in Hot Yang-Mills theories,
Marco Ruggieri, P.Alba, P.Castorina, S.Plumari, C.Ratti and V.Greco,
AIP Conf. Proc.1492, 274 (2012).
[29] Quark Matter in a Strong Magnetic Background,
R.Gatto and Marco Ruggieri,
Lect.Notes Phys. 871, 87 (2013).
[30] Polyakov Loop and Gluon Quasiparticles in Yang-Mills Thermodynamics,
Marco Ruggieri, P.Alba, P.Castorina, S.Plumari, C.Ratti and V.Greco,
Phys.Rev.D86, 054007 (2012).
[31] Deconfinement vs. chiral symmetry and higher representation matter,
T.Kahara, Marco Ruggieri and K.Tuominen,
Phys.Rev.D85, 094020 (2012).
[32] Hot Quark Matter with an Axial Chemical Potential,
R.Gatto and Marco Ruggieri,
Phys.Rev. D85, 054013 (2012).
[33] Quark Matter with a Chiral Chemical Potential,
Marco Ruggieri,
arXiv:1110.4907 [hep-ph].
[34] The Critical End Point of Quantum Chromodynamics Detected by Chirally Imbalanced Quark Matter,
Marco Ruggieri,
Phys.Rev.D84, 014011 (2011).
[35] Magnetic Susceptibility of the Quark Condensate and Polarization from Chiral Models,
M.Frasca and Marco Ruggieri,
Phys.Rev. D83, 094024 (2011).
[36] Collective modes in the color flavor locked phase,
R.Anglani, M.Mannarelli and Marco Ruggieri,
New J.Phys.13, 055002 (2011).
[37] Deconfinement and Chiral Symmetry Restoration in a Strong Magnetic Background,
R.Gatto and Marco Ruggieri,
Phys.Rev.D 83, 034016 (2011).
[38] Phase diagram of hot quark matter under magnetic field,
Marco Ruggieri,
AIP Conf.Proc. 1317, 360 (2011).
[39] Dressed Polyakov loop and phase diagram of hot quark matter under magnetic field,
R.Gatto and Marco Ruggieri,
Phys.Rev.D82, 054027 (2010).
[40] Non-topological Domain Walls in a Model with Broken Supersymmetry,
L.Campanelli and Marco Ruggieri,
Commun.Theor.Phys.55, 841 (2011).
[41] Dielectric correction to the Chiral Magnetic Effect,
K.Fukushima and Marco Ruggieri,
Phys.Rev.D82, 054001 (2010).
[42] Chiral magnetic effect in the PNJL model,
K.Fukushima, Marco Ruggieri and R.Gatto,
Phys.Rev.D81, 114031 (2010).
[43] Chiral symmetry restoration and deconfinement in strong magnetic fields,
Marco Ruggieri,
PoS FACESQCD 019 (2010).
[44] On the critical end point of the QCD and the NJL model phase diagrams,
Marco Ruggieri,
Nuovo Cim.32, 77 (2009).
[45] Probing the QCD vacuum with an abelian chromomagnetic field: A Study within an effective model,
L.Campanelli and Marco Ruggieri,
Phys.Rev.D80, 034014 (2009).
[46] Spinning Supersymmetric Q-balls,
L.Campanelli and Marco Ruggieri,
Phys.Rev.D80, 036006 (2009).
[47] Neutral quark matter in a Nambu-Jona Lasinio model with vector interaction,
H.Abuki, R.Gatto and Marco Ruggieri,
Phys.Rev.D80, 074019 (2009).
[48] On the neutrality issue in the Polyakov-loop NJL model,
H.Abuki, M.Ciminale, R.Gatto and Marco Ruggieri,
Phys.Rev.D79, 034021 (2009).
[49] The Fate of pion condensation in quark matter: From the chiral to the real world,
H.Abuki, R.Anglani, R.Gatto, M.Pellicoro and Marco Ruggieri,
Phys.Rev.D79, 034032 (2009).
[50] Phase diagram and pion modes of the neutral Nambu-Jona Lasinio model with the Polyakov loop,
Marco Ruggieri,
Prog.Theor.Phys.Suppl.174, 60 (2008).
[51] Chiral crossover, deconfinement and quarkyonic matter within a Nambu-Jona Lasinio model with the Polyakov loop,
H.Abuki, R.Anglani, R.Gatto, G.Nardulli and Marco Ruggieri,
Phys.Rev.D78, 034034 (2008).
[52] Enforced neutrality and color-flavor unlocking in the three-flavor Polyakov-loop NJL model,
H.Abuki, M.Ciminale, R.Gatto, G.Nardulli and Marco Ruggieri,
Phys.Rev.D77, 074018 (2008).
[53] Electrical neutrality and pion modes in the two flavor PNJL model,
H.Abuki, M.Ciminale, R.Gatto, N.D.Ippolito, G.Nardulli and Marco Ruggieri,
Phys.Rev.D78, 014002 (2008).
[54] Supersymmetric Q-balls: A Numerical study,
L.Campanelli and Marco Ruggieri,
Phys.Rev.D77, 043504 (2008).
[55] Three flavor Nambu-Jona Lasinio model with Polyakov loop and competition with nuclear matter,
M.Ciminale, R.Gatto, N.D.Ippolito, G.Nardulli and Marco Ruggieri,
Phys.Rev.D77, 054023 (2008).
[56] Equilibrium sequences of non-rotating and rapidly rotating crystalline color superconducting hybrid stars,
N.Ippolito, Marco Ruggieri, D.Rischke, A.Sedrakian and F.Weber,
Phys.Rev.D77, 023004 (2008).
[57] Instabilities in two flavor quark matter,
Marco Ruggieri,
AIP Conf.Proc.964, 250 (2007).
[58] Polyakov loop and the color-flavor locked phase of quantum chromodynamics,
M.Ciminale, G.Nardulli, Marco Ruggieri and R.Gatto,
Phys.Lett.B657, 64 (2007).
[59] Superfluid and pseudo-goldstone modes in three flavor crystalline color superconductivity,
R.Anglani, R.Gatto, N.D.Ippolito, G.Nardulli and Marco Ruggieri,
Phys.Rev.D76, 054007 (2007).
[60] A Diagrammatic derivation of the meson effective masses in the neutral color-flavor-locked phase of quantum chromodynamics,
Marco Ruggieri,
JHEP 0707, 031 (2007).
[61] Inhomogeneous color superconductivity and the cooling of compact stars,
Marco Ruggieri,
AIP Conf.Proc.892, 495 (2007).
[62] On the ground state of gapless two flavor color superconductors,
R.Gatto and Marco Ruggieri,
Phys.Rev.D75, 114004 (2007).
[63] Self-consistent evaluation of quark masses in three flavor crystalline color superconductivity,
N.D.Ippolito, G.Nardulli and Marco Ruggieri,
JHEP 0704, 036 (2007).
[64] Neutrino emission from compact stars and inhomogeneous color superconductivity,
R.Anglani, G.Nardulli, Marco Ruggieri and M.Mannarelli,
Phys.Rev.D74, 074005 (2006).
[65] Influence of finite quark chemical potentials on the three flavor LOFF phase of QCD,
R.Casalbuoni, M.Ciminale, R.Gatto, G.Nardulli and Marco Ruggieri,
Phys.Lett.B642, 350 (2006).
[66] Evaluating the phase diagram of superconductors with asymmetric spin populations,
M.Mannarelli, G.Nardulli and Marco Ruggieri,
Phys.Rev.A74, 033606 (2006).
[67] Chromomagnetic stability of the three flavor Larkin-Ovchinnikov-Fulde-Ferrell phase of QCD,
M.Ciminale, G.Nardulli, Marco Ruggieri and R.Gatto,
Phys.Lett.B636, 317 (2006).
[68] Effect of neutrino trapping on the three flavor FFLO phase of QCD,
V.Laporta and Marco Ruggieri,
Phys.Lett.B633, 734 (2006).
[69] Smeared gap equations in crystalline color superconductivity,
Marco Ruggieri,
AIP Conf.Proc.806, 303 (2006).
[70] Ginzburg-Landau approach to the three flavor LOFF phase of QCD,
R.Casalbuoni, R.Gatto, N.Ippolito, G.Nardulli and Marco Ruggieri,
Phys.Lett.B627, 89 (2005).
[71] Meissner masses in the gCFL phase of QCD,
R.Casalbuoni, R.Gatto, M.Mannarelli, G.Nardulli and Marco Ruggieri,
Phys.Lett.B605, 362 (2005).
[72] High density effective theory results for two and three massive flavors color superconductivity,
Marco Ruggieri,
eConf C 030614, 040 (2003).
[73] Quasiparticle specific heats for the crystalline color superconducting phase of QCD,
R.Casalbuoni, R.Gatto, M.Mannarelli, G.Nardulli, Marco Ruggieri and S.Stramaglia,
Phys.Lett.B575, 181 (2003).
[74] Aspects of the color flavor locking phase of QCD in the Nambu-Jona Lasinio approximation,
R.Casalbuoni, R.Gatto, G.Nardulli and Marco Ruggieri,
Phys.Rev.D68, 034024 (2003).
[75] Massive quark effects in two flavor color superconductors,
R.Casalbuoni, F.De Fazio, R.Gatto, G.Nardulli and Marco Ruggieri,
Phys.Lett.B547, 229 (2002).
非第一或通讯作者发表的论文如下（共11篇）：
[1] Quark mass scaling and properties of light-quark matter,
Z.Y.Lu, G.X.Peng, S.P.Zhang, Marco Ruggieri and Vincenzo Greco,
Nucl.Sci.Tech.27, no. 6, 148 (2016).
[2] INFN What Next : Ultra-relativistic Heavy-Ion Collisions,
A.Dainese et al.,
Frascati Phys.Ser.62 (2016).
[3] Relativistic Boltzmann transport approach with Bose-Einstein statistics and the onset of gluon condensation,
F.Scardina, D.Perricone, S.Plumari, Marco Ruggieri and V.Greco,
Phys.Rev.C90, no. 5, 054904 (2014).
[4] Elliptic Flow from fKLN Initial Conditions,
F.Scardina, Marco Ruggieri, S.Plumari and V.Greco,
J.Phys.Conf.Ser.509, 012100 (2014).
[5] Anisotropic Flow from Non-equilibrium Initial Condition with a Saturation Scale,
V.Greco, Marco Ruggieri, F.Scardina, S.Plumari and A.Puglisi,
EPJ Web Conf.66, 04009 (2014).
[6] Polyakov loop and gluon quasiparticles: A self-consistent approach to Yang–Mills thermodynamics,
P.Alba, W.Alberico, M.Bluhm, V.Greco, C.Ratti and Marco Ruggieri,
Nucl.Phys.A934, 41 (2014).
[7] Comment on Dark Matter Capture in Neutron Stars with Exotic Phases,
M. Tachibana and Marco Ruggieri,
arXiv:1312.5802 [hep-ph].
[8] QCD phase diagram at finite baryon and isospin chemical potentials in Polyakov loop extended quark meson model with vector interaction,
H.Ueda, T.Z.Nakano, A.Ohnishi, Marco Ruggieri and K.Sumiyoshi,
Phys.Rev.D88, no. 7, 074006 (2013).
[9] QCD critical point sweep during black hole formation,
A.Ohnishi, H.Ueda, T.Z.Nakano, Marco Ruggieri and K.Sumiyoshi,
AIP Conf.Proc. 1484, no. 1, 327 (2012).
[10] QCD critical point in the strong coupling lattice QCD and during black hole formation,
A.Ohnishi, K.Miura, T.Z.Nakano, N.Kawamoto, H.Ueda, Marco Ruggieri and K.Sumiyoshi,
Acta Phys.Polon.Supp.5, 815 (2012).
[11] Possibility of QCD critical point sweep during black hole formation,
A.Ohnishi, H.Ueda, T.Z.Nakano, Marco Ruggieri and K.Sumiyoshi,
Phys.Lett.B704, 284 (2011).