Antonino Marciano
发布时间: 2014-05-04     文章作者:     访问次数: 21889

 

 

 

 

Antonino Marciano

 

Full Professor (Tenured)

Ph.D.(2008), University of Rome, Italy

教授

2008年博士,意大利罗马大学

Tel: +86-188-17390340

E-mailMarciano@fudan.edu.cn

 

Experiences:

2004/04 Laurea in Physics, “Sapienza” University of Rome (Italy)

2008/01 PhD in Physics, “Sapienza” University 2007/10-2010/08 Postdoctoral Research Fellow, Centre de Physique Theorique, Marseille (France)

2010/02-2010/08 Postdoctoral Research Fellow, University of Rome (Italy)

2010/09-2011/08 Postdoctoral Research Fellow, Haverford College (USA)

2011/09-2012/08 Visiting fellow, as postdoctoral researcher, Princeton University (USA)

2012/09-2013/12 Postdoctoral Research Fellow, Dartmouth University (USA)

2014/01-present professor, Fudan University

 

Published more than 100 research articles on refereed journals with the highest impact factor. H-index: 27 (INSPIRE and Google Scholar).

 

Referee for the Italian Minister of Research and University, Royal Dutch Academy of Science, Swiss Natural Foundation, National Science Center of Poland…

 

Referee for Nature Communications, Physical Review Letters, Physical Review D, JHEP, JCAP, EPJC, Classical and Quantum Gravity, Physics of Dark Universe, Annals of Physics… 



Teaching and Research Interests

Teaching: quantum mechanics, general relativity, quantum field theory, early cosmology and CMBR physics, quantum cosmology and quantum gravity…

 

Research interests: gravitational waves and first order phase transitions, dark matter models, inflation, dark energy, quantum cosmology and quantum gravity, quantum gravity phenomenology, quantum 

 

Selected Publications:

(Correspondent author *)

“Strongest atomic physics bounds on noncommutative quantum gravity models,” K. Piscicchia, A. Addazi, A. Marciano’*, et al. accepted in Phys. Rev. Lett.  [arXiv:2209.00074 [hep-th]].

 

— “Quantum Neural Networks and Topological Quantum Field Theories,” A. Marciano’, D. Chen, F. Fabrocini, C. Fields, E. Greco, N. Gresnigt, K. Jinklub, M. Lulli, K. Terzidis, E. Zappala, Journal of Neural Networks 153 (2022), 164-178;  [arXiv:2007.00142[cond-mat]].

 

— “Sequential measurements, TQFTs, and TQNNs,”  C. Fields, J. F. Glazebrook and A. Marciano’*, Fortschritte der Physik (2022) 2200104 [arXiv:2205.13184 [quant-ph]];

 

— “Gravitational-Wave Signatures of Chiral-Symmetric Technicolor,” H. Yang, F.F. Freitas, A. Marciano’*, A.P. Morais, R. Pasechnik and J. Viana, Phys. Lett. B 830 (2022), 137162 [arXiv:2204.00799 [hep-ph]];

 

— “Markov blankets are general physical interaction surfaces: Comment on on ‘Morphogenesis as bayesian inference: A variational approach to pattern formation and control in complex biological systems,’ ” C. Fields and A. Marciano’, Physics of Life Reviews;

 

— “Gravitational footprints of massive neutrinos and lepton number breaking,” A. Addazi, A. Marciano’, A. P. Morais, R. Pasechnik, R. Srivastava and J. W. F. Valle, Phys. Lett. B 135577 (2020), [arXiv:1909.09740 [hep-ph]];

 

— “Emergent Mirror Symmetry in Yang-Mills Vacua,” A. Addazi, A. Marciano’, R. Pasechnik and G. Prokhorov, Eur. Phys. J. C 79 (2019) n0.3, 251 [arXiv:1804.09826 [hep-th]].

 

— “Can we probe Planckian corrections at the horizon scale with gravitational waves?,” A. Addazi, A. Marciano’* and N. Yunes, Phys. Rev. Lett. 122, no. 8, 081301 (2019),  (Editorial suggestion) [arXiv:1810.10417 [gr-qc]].

 

— “Dynamics of Gauge Field Inflation,”
 S. Alexander, D. Jyoti, A. Kosowsky and A. Marciano’, JCAP 05 005 (2015),  [arXiv:1408.4118 [hep-th]].

 

— “Gravitational origin of the weak interaction’s chirality,”
 S. Alexander, A. Marciano’* and L. Smolin, Phys. Rev. D 89 065017 (2014),  [arXiv:1212.5246 [hep-th]].

 

— “Chern-Simons Inflation and Baryogenesis,”
 S. Alexander, A. Marciano’ and D. Spergel, JCAP 04 046 (2013), [arXiv:1107.0318 [hep-th]]. 




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