Andrea Perali short CVbioAndrea Perali is an Associate Professor of Condensed Matter Physics at the University of Camerino (Italy). In 2017 he got the national habilitation to Full Professor. He is the delegate of the Rector for e-learning. He has got the laurea (1995) and Ph.D. (2000) in Physics at the University of Roma “Sapienza” working in the group of Prof. C. Castellani and Prof. C. Di Castro. He has been a post doc fellow for one year (2001) at the Rutgers University (USA) working with Prof. G. Kotliar on numerical methods for high-Tc superconductivity. He has won 3 prizes “Enrico Persico” from the “Accademia Nazionale dei Lincei” for the best physics students in the Rome universities and the prize of Italian Physics Society for young researchers. He has won the prize of “Fondazione Angelo della Riccia” to partially support the post doc in USA. In 2015 he has been nominated “Outstanding Referee” from APS and he has won the “Fibonacci” prize by RICMASS for pioneering studies on superconducting stripes. Author of 75 publications [2108 citations, Hirsch index h=24 (Web of Science source)]. He partecipated to the scientific and organizing committees of 12 international conferences and 1 summer school (co-director in five). He presented 52 talks at international conferences and universities and 18 posters. He is referee for the Physical Review Journals, EU-Horizon 2020, NSF of USA, FWO in Belgium, CNPq in Brazil, and for NSER Council of Canada. He is Editorial Board member of Scientific Reports – NPG, Guest Editor of Superconducting Science and Technology, and Editorial Board member of Condensed Matter, MDPI. He partecipated to 5 national priojects (PRIN). He is the Principal Investigator of the Ateneo Project on “Control and Enhancement of Superconductivity by Engineering Materials at the Nanoscale” (2014-2016) leading to the opening of the SuperNano laboratory of the University of Camerino, in collaboration with the Nanofabrication laboratory, INRIM, Turin. research topicsResearch interests include theory of superconductivity and superfluidity: BCS-BEC crossover, pseudogap and fluctuating phenomena in ultracold fermions and multiband superconductors and superfluids. He has more than 20 years of experience in diagrammatic and numerical methods for strongly interacting fermions. He collaborates with Prof.s G.C. Strinati, P. Pieri and D. Neilson in Camerino, together with several graduate students. He has collaborated with the experimental group of Prof. D. Jin at the University of Colorado at Boulder (USA), contributing to the observation and characterization of the pseudogap in ultracold fermions. In 2010, he started a large international collaborative effort with Prof. Arkady Shanenko and Prof. Albino Aguiar in Federal University of Pernambuco (Brasil) and with Prof. Milorad Milosevic and Prof. Francois Peeters in University of Antwerp (Belgium) on multiband superconductivity and superfluidity and with A. R. Hamilton in University of New South Wales, Sydney, Australia on a new superfluid graphene-based device to observe and exploit high-temperature electron-hole superfluidity (locally in collaboration with D. Neilson). He is the founder, together with Milosevic and Shanenko, of the International Network “MultiSuper”, which runs the international conferences “MultiSuper”. http://www.multisuper.org selected publicationsP.L. Ríos, A. Perali, R.J. Needs, D. Neilson, Evidence from Quantum Monte Carlo Simulations of Large-Gap Superfluidity and BCS-BEC Crossover in Double Electron-Hole Layers, Physical Review Letters 120, 177701 (2018). S. Conti, A. Perali, F.M. Peeters, D. Neilson, Multicomponent electron-hole superfluidity and the BCS-BEC crossover in double bilayer graphene Physical Review Letters 119, 257002 (2017). M. Cariglia, R. Giambò, and A. Perali Curvature-tuned electronic properties of bilayer graphene in an effective four-dimensional spacetime, Physical Review B 95, 245426 (2017). M.M. Doria, M. Cariglia, A. Perali, Multigap superconductivity and barrier-driven resonances in superconducting nanofilms with an inner potential barrier, Physical Review B 94, 224513 (2016). A. Guidini, A. Perali, Band-edge BCS–BEC crossover in a two-band superconductor: physical properties and detection parameters, Superconductor Science and Technology 27, 124002 (2014). A. Perali, D. Neilson, and A. R. Hamilton, High-Temperature Superfluidity in Double-Bilayer Graphene, Physical Review Letters 110, 146803 (2013). A. Perali, F. Palestini, P. Pieri, G.C. Strinati, J. T. Stewart, J. P. Gaebler, T. E. Drake, and D. S. Jin, Evolution of the Normal State of a Strongly Interacting Fermi Gas from a Pseudogap Phase to a Molecular Bose Gas, Physical Review Letters 106, 060402 (2011). J.P. Gaebler, J.T. Stewart, T.E. Drake, D.S. Jin, A. Perali, P. Pieri, and G. C. Strinati, Observation of pseudogap behaviour in a strongly interacting Fermi gas, Nature Physics 6, 569-573 (2010). P. Pieri, A. Perali, and G.C. Strinati, Enhanced paraconductivity-like fluctuations in the radiofrequency spectra of ultracold Fermi atoms, Nature Physics 5, 736-740 (2009). A. Perali, P. Pieri, and G.C. Strinati, Competition between Final-State and Pairing-Gap Effects in the Radio-Frequency Spectra of Ultracold Fermi Atoms, Phys. Rev. Lett. 100, 010402 -1/-4 (2008). PERALI ANDREA e-mail: andrea.perali@unicam.itview more info at: https://docenti.unicam.it/pdett.aspx?ids=N&tv=d&UteId=552
PERALI ANDREA e-mail: andrea.perali@unicam.itview more info at: https://docenti.unicam.it/pdett.aspx?ids=N&tv=d&UteId=552
