Research interests
Non-equilibrium thermodynamics. Thermodynamics of quantum systems and devices. Foundations and applications of Statistical Mechanics. My current activity includes:
• Thermodynamics of quantum computation [DOI] [physicsworld]
• Impact of quantum measurements on thermodynamic performance of quantum heat engines [DOI] [Physics]
• Fast charging of quantum batteries [DOI], [physicsworld]
• Development of quantum heat engines based on superconducting circuits [DOI], [DOI], [DOI]
• Quenches in many-body quantum systems: equivalence of ensembles in non-equilibrium processes [DOI], scrambing of quantum information [DOI], non-equilibrium signatures of quantum phase transitions [DOI]
• Mechanical foundations of thermodynamics and statistical physics [DOI]
Biographical sketch
• 2020–… Senior Researcher. CNR-Institute for Nano Science, Pisa, IT
• 2017–2020. Assistant Professor. University of Florence, IT
• 2017. Fellow Senior. Italian Institute of Technology, Genova, IT
• 2014–2017. Marie Curie Fellow. Scuola Normale Superiore, Pisa, IT
• 2008–2014. Research Fellow. University of Augsburg, DE
• 2006–2008. PhD Student. University of North Texas, USA
• 2004–2006. Research Assistant. Scuola Superiore Sant’Anna, Pisa, IT
• 2002–2003. PhD Student. University of North Texas, USA
• 2001. Laurea in Fisica. University of Pisa, IT
Selected publications
• Michele Campisi, Peter Hänggi, and Peter Talkner Colloquium. Quantum Fluctuation Relations: Foundations and Applications Reviews of Modern Physics 83 , 771 (2011) [arXiv] [DOI]
• Michele Campisi, Peter Talkner, and Peter Hänggi Fluctuation theorem for Arbitrary Open Quantum Systems Physical Review Letters 102, 210401 (2009) [arXiv] [DOI] [pdf] [Physics viewpoint]
• Lorenzo Buffoni, Andrea Solfanelli, Paola Verrucchi, Alessandro Cuccoli, Michele Campisi Quantum Measurement Cooling Physical Review Letters 122 070603 (2019) [arXiv] [DOI] [Physics] [Phys.org]
• Michele Campisi, Peter Talkner, and Peter Hänggi Fluctuation Theorems for continuously monitored quantum fluxes Physical Review Letters 105, 104601 (2010) [arXiv] [DOI]
• Michele Campisi and Rosario Fazio The power of a critical heat engine Nature Communications 7, 11895 (2016) [arXiv] [DOI]
• Michele Campisi, Fei Zhan, Peter Talkner, and Peter Hänggi, Logarithmic Oscillators: Ideal Hamiltonian Thermostats Physical Review Letters 108 , 250601 (2012) [arXiv] [DOI]
• D. Ferraro, M. Campisi, M. Andolina, V. Pellegrini, and M. Polini High-power collective charging of a solid-state quantum battery Physical Review Letters, 120 117702 (2018) [arXiv] [DOI] [physicsworld] [Phys.org]