docEugenio Calandrini – Curriculum vitae
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Eugenio Calandrini – Curriculum vitae
Eugenio Calandrini Curriculum vitae Í via Carlo Muscetta 38, Roma CAP 00139 H +39 339 4935145 T +39 06 87121804 B [email protected] http://tinyurl.com/Calandrini-IIT Personal Data Born Roma, 22 luglio 1989 Nationality Italiana Address Roma, via Carlo Muscetta 38 Marital Single Status Education 4/14 – 9/14 Scholarship, Università degli Studi di Roma “Sapienza”, Research topic: Mid Infrared Plasmonics. 2013 Master Degree in Physics, Università degli Studi di Roma “Sapienza”, Thesis title: Infrared Spectroscopy of Germanium Plasmonic Nanoantennas Supervisor: Michele Ortolani Grade 110/110 cum laude. 2011 Bachelor Degree in Physics, Università degli Studi di Roma “Sapienza”, Thesis title: Non-Gaussian Distributions in Granular Media Supervisors: Andrea Puglisi & Angelo Vulpiani Grade 101/110. 2008 Scientific high school degree, Liceo Scientifico Statale “A. Avogadro”, Roma, Grade 93/100. Languages Italian Excellent English Fluent Computer Skills Operating MacOS, Unix/Linux, Windows system Programming C language Software Microsoft Office, Open Office, Google SketchUp, Igor Pro, Gnuplot Internet Explorer, Safari, Firefox, Chrome Typography LATEX Mother tongue Publications E Calandrini, M Ortolani, A Nucara, G Scappucci, W M Klesse, M Y Simmons, L Di Gaspare, M De Seta, D Sabbagh, G Capellini, M Virgilio, and L Baldassarre. Determination of the free carrier concentration in atomic-layer doped germanium thin films by infrared spectroscopy. J. Opt., 16(9):094010, 9 2014. L Baldassarre, E Calandrini, A Samarelli, K Gallacher, D J Paul, J Frigerio, G Isella, E Sakat, M Finazzi, P Biagioni, and M Ortolani. Mid-infrared plasmonic platform based on heavily doped epitaxial ge-on-si: Retrieving the optical constants of thin ge epilayers. pages 1–3, 9 2014. Jacopo Frigerio, Michele Ortolani, Leonetta Baldassarre, Eugenio Calandrini, Antonio Samarelli, Kevin Gallacher, Emilie Sakat, Marco Finazzi, Douglas J Paul, and Paolo Biagioni. Mid-infrared plasmonic germanium antennas on silicon. In Group IV Photonics (GFP), 2014 IEEE 11th International Conference on, pages 27–28. IEEE, 2014. Adele De Ninno, Gabriele Ciasca, Annamaria Gerardino, Eugenio Calandrini, Massimiliano Papi, Marco De Spirito, Alessandro Nucara, Michele Ortolani, Luca Businaro, and Leonetta Baldassarre. An integrated superhydrophobic-plasmonic biosensor for mid-infrared protein detection at the femtomole level. Phys. Chem. Chem. Phys., 2014. Forthcoming. Paolo Biagioni, Jacopo Frigerio, Antonio Samarelli, Kevin Gallacher, Leonetta Baldassarre, Emilie Sakat, Eugenio Calandrini, R W Millar, Valeria Giliberti, Giovanni Isella, Douglas J. Paul, and Michele Ortolani. Group-iv mid-infrared plasmonics. JNP, 2014. Forthcoming. Eugenio Calandrini, Emilie Sakat, Leonetta Baldassare, Antonio Samarelli, Kevin Gallacher, Douglas J. Paul, Jacopo Frigerio, Giovanni Isella, Marco Finazzi, Paolo Biagioni, and Michele Ortolani. Angle-resolved mid-infrared spectroscopy of plasmonic nanoantennas. Poster presented at the 2th Workshop on Plasmonics and Applications (Plasmonica 2014), Jun 30 – 2 Jul, Rome, IT. Emilie Sakat, Michele Ortolani, Kevin Gallacher, Jacopo Frigerio, Leonetta Baldassarre, Marco Finazzi, Eugenio Calandrini, Giovanni Isella, Antonio Samarelli, Douglas J. Paul, and Paolo Biagioni. Mid-infrared plasmonic germanium antennas integrated on a silicon substrate. Poster presented at the 13th Conference on Near-Field Optics, Nanophotonics, and Related Technique (NFO13), Aug 31– Sep 4, Salt Lake City, UT. Luca Businaro, Michele Ortolani, Leonetta Baldassarre, Eugenio Calandrini, Alessando Nucara, Adele De Ninno, and Annamaria Gerardino. Ir spectroscopy of liquid samples by integration of plasmonic nanoantennas and microfluidics. Poster presented at the 40th International Conference on Micro and Nano Engineering (MNE 2014), Sep 22–26, Lousanne, Switzerland. Transcript of records Courses attended in Master program in Physics Course Condensed Matter Physics Introduction to the theory of stochastic processes Physics of Solids I Rational Mechanics Advances Laboratory of Physics Physics of surfaces and nanostructures Computational Physics of Matter Relativistic Quantum Mechanics Superconductivity e Superfluidity Statistical Mechanics and Critical Phenomena ECTS Credits Grading 9 25/30 6 29/30 6 27/30 6 27/30 12 30/30 6 30/30 6 30/30 6 27/30 6 30/30 9 30/30 Courses attended in Bachelor program in Physics Course Geometry Mathematical Analysis Computational Physics Classical Mechanics Classical Mechanics Laboratory Chemistry Laboratory of Computational Physics I Vectorial Analysis Theromodynamics and Laboratory Electromagnetism Models and Methods in Mathematical Physics Analytical and Relativistic Mechanics Electromagnetism and Circuits Laboratory Quantum Mechanics Systems and Signals Laboratory General Relativity Nuclear Physics I Structure of Matter Statistical Mechanics Optics and Laboratory Radiation Detector Laboratory ECTS Credits 9 9 6 12 12 6 6 9 9 12 12 6 6 9 9 6 6 6 6 6 6 Grading 26/30 24/30 27/30 22/30 24/30 27/30 28/30 23/30 24/30 24/30 21/30 27/30 28/30 22/30 28/30 30/30 cum laude 27/30 18/30 27/30 24/30 29/30 Referees Michele Ortolani, Researcher at the University of Rome Sapienza, email: [email protected] Paolo Biagioni, Researcher at the Politecnico di Milano, email: [email protected] pao- Francesco De Angelis, Team Leader at the Italian Institute of Technology – Genoa, email: [email protected]
