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Dipartimento di

 
 
        Me ... some years ago ...

Fisica della Materia Condensata (struttura)

Research interests

Monte Carlo, Molecular Dynamics and Quantum Monte Carlo simulations of many-particle and complex systems; theory of quantum gases, liquids and solids; quantum simulation on quantum computers; statistical methods for ill-posed inverse problems; genetic/memetic algorithms; phase retrieval algorithms in coherent diffraction imaging; application of computational intelligence and deep learning in Physics.

Teaching (a.a. 2022/2023)
  • Advanced Statistical Physics (Laurea Magistrale in Fisica)
  • Numerical Simulation Laboratory (Laurea Triennale e Magistrale in Fisica)
  • Numerical Treatment of Experimental Data Laboratory (Laurea Triennale in Fisica)
Links
Selected publications

  • “Quantum simulations of molecular systems with intrinsic atomic orbitals”, S. Barison, D.E. Galli, M. Motta, Phys. Rev. A 106, 022404 (2022). DOI:10.1103/PhysRevA.106.022404
  • “Dynamical stochastic simulation of complex electrical behavior in neuromorphic networks of metallic nanojunctions”, F. Mambretti, M. Mirigliano, E. Tentori, N. Pedrani, G. Martini, P. Milani, and D.E. Galli, Scientific Reports 12, 12234 (2022). DOI:10.1038/s41598-022-15996-9
  • "Multi-class quantum classifiers with tensor network circuits for quantum phase recognition", M. Lazzarin, D.E. Galli, Enrico Prati, Phys. Lett. A 434, 128056 (2022). DOI:10.1016/j.physleta.2022.128056
  • “Crystallization kinetics of atomic crystals revealed by a single-shot and single-particle X-ray diffraction experiment”, Akinobu Niozu, et al., PNAS 118, e2111747118 (2021). DOI: 10.1073/pnas.2111747118
  • “Crystal growth rates in supercooled atomic liquid mixtures” A. Schottelius, F. Mambretti, A. Kalinin, B. Beyersdorff, A. Rothkirch, C. Goy, J. Müller, N. Petridis, M. Ritzer, F. Trinter, J.M. Fernández, T.A. Ezquerra, D.E. Galli, and R.E. Grisenti, Nature Materials, (2020), DOI: 10.1038/s41563-020-0613-z
  • “Ultrafast Structural Dynamics of Nanoparticles in Intense Laser Fields” by T. Nishiyama, et al., Phys. Rev. Lett. 123, 123201 (2019).
  • “Probing quantum turbulence in 4He by quantum evaporation measurements”, I. Amelio, D. E. Galli, L. Reatto, Phys. Rev. Lett. 121, 015302 (2018).
  • “Quantum Critical Behavior of One-Dimensional Soft Bosons in the Continuum”, S. Rossotti, M. Teruzzi, D. Pini, D. E. Galli, and G. Bertaina, Phys. Rev. Lett. 119, 215301 (2017).
  • “Statistical and computational intelligence approach to analytic continuation in Quantum Monte Carlo.”, G. Bertaina, D.E. Galli, E. Vitali, Adv. Phys. X 2, 302 (2017).
  • “Facing the phase problem in Coherent Diffractive Imaging via Memetic Algorithms”, A. Colombo, D.E. Galli, L. De Caro, F. Scattarella, and E. Carlino, Scientific Reports 7, 42236 (2017).
  • “Dynamical structure factor of one-dimensional hard rods”, M. Motta, E. Vitali, M. Rossi, D. E. Galli, and G. Bertaina, Phys.Rev. A 94, 043627 (2016).
  • “One-dimensional liquid 4He: dynamical properties beyond Luttinger-liquid theory”, G. Bertaina, M. Motta, M. Rossi, E. Vitali, D.E. Galli, Phys. Rev. Lett. 116, 135302 (2016).
  • "Observation of crystallization slowdown in supercooled parahydrogen and orthodeuterium quantum liquid mixtures", M. Kühnel, J.M. Fernández, F. Tramonto, G. Tejeda, E. Moreno, A. Kalinin, M. Nava, D.E. Galli, S. Montero and R.E. Grisenti, Phys. Rev. B 89, 180201(R) (2014).
  • “Dynamic structure factor for 3He in two dimensions”, M. Nava, D.E. Galli, S. Moroni, and E. Vitali, Phys. Rev. B 87, 144506 (2013).
  • “Adsorption of He isotopes on fluorographene and graphane: Fluid and superfluid phases from quantum Monte Carlo calculations”, M. Nava, D.E. Galli, M.W. Cole, L. Reatto, Phys. Rev. B 86, 174509 (2012).
  • “Equation of state of two-dimensional 3He at zero temperature” M. Nava, A. Motta, D.E. Galli, E. Vitali, and S. Moroni, Phys. Rev. B 85, 184401 (2012).
  • “Microscopic characterization of overpressurized superfluid 4He”, M. Rossi, E. Vitali, L. Reatto, D.E. Galli, Phys. Rev. B 85, 014525 (2012).
  • “Path Integral Monte Carlo study of 4He clusters doped with alkali and alkali-earth ions”, D.E. Galli, D.M. Ceperley, and L. Reatto, J. Phys. Chem. A 115, 7300 (2011).
  • “Ab initio low-energy dynamics of superfluid and solid 4He”, E.Vitali, M. Rossi, L. Reatto, and D.E. Galli, Phys. Rev. B 82, 174510 (2010).
  • “Exact ground state Monte Carlo method for Bosons without importance sampling”, M. Rossi, M. Nava, L. Reatto, and D.E. Galli, J. Chem. Phys. 131, 154108 (2009).
  • “Solid 4He and the Supersolid Phase: from Theoretical Speculation to the Discovery of a New State of Matter? A Review of the Past and Present Status of Research”, D.E. Galli, and L. Reatto, J. Phys. Soc. Jap. 77, 111010 (2008).
  • “Bose-Einstein Condensation of Incommensurate Solid 4He”, D.E. Galli, and L. Reatto, Phys. Rev. Lett. 96, 165301 (2006).
  • “Layer by layer solidification of 4He in narrow porous media”, M. Rossi, D.E. Galli and L. Reatto, Phys. Rev. B72, 064516 (2005).
  • “Alkali and alkali–earth ions in 4He systems”, M. Rossi, M. Verona, D.E. Galli and L. Reatto, Phys. Rev. B69, 212510 (2004).
  • “Vacancy excitation spectrum in solid 4He and longitudinal phonons”, D.E. Galli and L. Reatto, Phys. Rev. Lett. 90, 175301/1 (2003).
  • “Recent progress in simulation of the ground state of many Boson systems”, D.E. Galli and L. Reatto, Mol. Phys. 101, 1697 (2003).
  • “Vacancies in solid 4He and Bose Einstein Condensation”, D.E. Galli and L.Reatto, J. Low Temp. Phys., 124, (2001).
  • “Fluctuation effects at the free surface of superfluid 4He”, D.E. Galli and L. Reatto, J. of Phys.: Condensed Matter 12, 6009 (2000).
  • “Rotons and Roton Wave Packets in Superfluid 4He”, D.E. Galli, E. Cecchetti and L. Reatto, Phys. Rev. Lett. 77, 5401 (1996).



Parallel Computing and condensed matter simulations laboratory




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