ANSWER

QT Education Master Degree

City	Name of your University or Research Institute	Department	Name of the Master school	Curriculum and topics	Curriculum or topic name	Duration	Coordinator's name	Coordinator's email	website
Pavia	Università di Pavia	Dipartimento di Fisica	Laurea Magistrale in Scienze Fisiche (Master in Physical sciences)	curriculum	Physics of Quantum Technologies	2 years	Chiara Macchiavello	chiara@unipv.it	http://fisica.unipv.it/dida/Corso_LM_Scienze_Fisiche.htm
Pisa	Università di Pisa	Dipartimento di Fisica	Corso di Laurea Magistrale in Fisica (Master school)	study plan	Quantum Computation and Technologies	2 years	Riccardo Mannella	riccardo.mannella@unipi.it	https://www.df.unipi.it/it/didatticanuova/1011/classe-lm-17
Caserta	University of Campania “Luigi Vanvitelli”	Department of Mathematics and Physics (DMF)	Master of Science (MSc) Programme in Physics	topic	Atoms, molecules and photons	24 month	Livio Gianfrani	livio.gianfrani@unicampania.it	https://www.matfis.unicampania.it/didattica/corsi-di-studio/corso-di-laurea-magistrale-in-physics
Catania	University of Catania	Department of physics and astronomy "Ettore Majorana"	Laurea magistrale in Physics	curriculum	Sub-Curriculum in Theoretical Condensed Matter Physics with five specialized courses in quantum information, quantum optics, computational quantum dynamics, superconductivyty, quantum phases of matter	2 years	Francesca Zuccarello/ Giuseppe Falci for Theor. Cond Mat.	giuseppe.falci@unict.it	https://www.dfa.unict.it/en/content/courses/LM-17
Milan	University of Milan	Department of Physics 'Aldo Pontremoli'	Physics	topic	Quantum information & technology	2 yrs (master, 120 ECTS credits)	Alberto Pullia	alberto.pullia@unimi.it	http://eng.fisica.unimi.it/ecm/home/teaching

QT Education_PhD

City	Name of your University or Research Institute	Department	Name of the PhD program	Curriculum and topics	Curriculum or topic name	Duration	Coordinator's name	Coordinator's email	Website
Napoli	Università di Napoli Federico II	Dipartimento di Fisica "E.Pancini"	Quantum Technologies	curriculum		3 years	Francesco Tafuri	francesco.tafuri@unina.it	https://www.fisica.unina.it/presentazione-dottorato-qt
Modena	Università di Modena e Reggio Emilia	Scienze Fisiche, informatiche e Matematiche	Physics and Nanosciences			3 years	Stefano Frabboni	phd_physicsnanosciences@unimore.it	http://www.nano-phdschool.unimore.it/site/home.html
Palermo	Università di Palermo	Dipartimento di Fisica e Chimica	Dottorato in Scienze Fisiche e Chimiche	topic	Quantum Technologies	3 years	Gioacchino Massimo Palma	massimo.palma@unipa.it	https://www.unipa.it/dipartimenti/difc/dottorati/scienzefisicheechimiche
Pisa	Scuola Normale Superiore	Classe di Scienze	Physics, Nanoscienze	topic	Quantum Technologies, and quantum information	4 year	Gigi Rolandi and Andrea Ferrara	luigi.rolandi@sns.it	https://www.sns.it/en/nanoscience
Catania	University of Catania	Department of physics and astronomy "Ettore Majorana"	PhD in Fisica	curriculum	Curriculum in Theoretical Physics of fundamental Interaction and Quantum Technologies	3 years	Sebastiano Albergo	sebastiano.albergo@dfa.unict.it	https://www.dfa.unict.it/it/content/dottorato-fisica
Milan	University of Milan	Department of Physics 'Aldo Pontremoli'	Phd in Physics, Astrophysics and Applied Physics	topic	Quantum information & technology	3 years	Matteo Paris	matteo.paris@unimi.it	http://phd.fisica.unimi.it
Bari	Università di Bari	Dipartimento di Fisica	Physics	topic	Quantum Information and Quantum Tecnologies	3 years	Giuseppe Iaselli	giuseppe.iaselli@poliba.it	http://phdphysics.cloud.ba.infn.it

QT Research Groups

City	Name of your University or Research Institute	Department	Name of the research group	Theoretical or/and experimental	Flagship topic	Free topic	Short description	Number of the group members	Coordinator's name	Coordinator's email	Website
Bari	University of Bari	Physics	Quantum	Theoretical	quantum computation, quantum simulation, basic science		Quantum simulations of lattice gauge theories. Complexity. Entanglement. Quantum dissipative systems.	10	Saverio Pascazio	saverio.pascazio@ba.infn.it	http://www.ba.infn.it/~pascazio/
Camerino	University of Camerino	Physics Division, School of Science and Technology	Quantum Technologies and Optomechanics	Theoretical, Experimental	Quantum communication, quantum sensing and methrology, basic science		Quantum sensing with hybrid optomechanical devices, i.e., nanomechanical resonators coupled to quantum light and quantum microwaves., Quantum interfaces for signal conversion at the quantum level, Quantum communication and sensing with quantum light and microwaves	10	David Vitali, Giovanni Di Giuseppe	david.vitali@unicam.it	https://www.unicam.it/iquoems/
Camerino	University of Camerino	School of Science and Technology	Quantum Mechanics & Information Theory (QM&IT)	Theoretical	Quantum Communication, Basic Science		Quantum channels capacities; Quantum control and error correction; Entanglement characterization; Information geometry; Quantum cryptography	5	Stefano Mancini	stefano.mancini@unicam.it	http://qmit.phys.unicam.it/
Catania	University of Catania	Department of physics and astronomy "Ettore Majorana"	Condensed Matter and Quantum Technologies (CMQT)	Theoretical	quantum computation, quantum simulation, basic science		Quantum computation with superconductors. Strong and Ultrastrong coupling. Hybrid graphene-Josephson systems Open quantum systems: non-Markovian dynamics and quantum sensing. Atomtronics	9	Giuseppe Falci	giuseppe.falci@unict.it	https://www.dfa.unict.it/en/cmqt
Como	Univ. Insubria	Science and High Technology	Center for Nonlinear and Complex Systems	Theoretical	basic science		- Quantum Thermodynamics (quantum heat engines, trade-off between power, efficiency, and fluctuations, thermodynamic uncertainty relations, heat management at the nanoscale, thermal rectification) - Quantum information processing in the ultra-strong coupling regime (state transfer, entanglement generation, two-qubit gates)	3	Giuliano Benenti	giuliano.benenti@uninsubria.it	http://scienze-como.uninsubria.it/benenti/
Como	IFN-CNR c/o University of Insubria	Department of Science and high Technology	Ultrafast Nonlinear Optics group	Experimental	quantum sensing and methrology, basic science	Nonlinear and Quantum Optics	Beam shaping and tailoring of the pump of Parametric down conversion processes for the generation of twin beams and the engineering of correlated and multipartite entangled states. Beam shaping and application to laser micromachining of diamond for quantum sensing and microfluidics.	3	Ottavia Jedrkiewicz	ottavia.jedrkiewicz@ifn.cnr.it
Firenze	Istituto Nazionale di Ottica/LENS		Quantum Science and Technology in Arcetri	Theoretical	Quantum communication, quantum computation, quantum simulation, quantum sensing and methrology, basic science		Qstar offers a highly interdisciplinary scientific environment focused on quantum science and technology and in particular on the research opportunities in low-energy quantum science that are being created by emerging new technologies in atomic, molecular and optical (amo) physics, precision metrology, and nano-scale science. (Connected to Quantum gases at LENS)	12	Augusto Smerzi	augusto.smerzi@ino.cnr.it	http://www.cqstar.eu/2019/index.html
Firenze	LENS (Università di Firenze)/CNR-INO		Quantum gases	Experimental	quantum simulation, quantum sensing and methrology, basic science		In our labs we use lasers and magnetic fields to produce the lowest temperatures of the Universe, just a few billionths of a degree above absolute zero. At these temperatures, atoms stop moving and we can control them for a variety of different fundamental studies and applications. We can force atoms to arrange according to a periodic structure and simulate the behavior of crystalline solids and new materials. We can use the atoms as ultra-high accurate sensors to probe forces with the power of quantum mechanics. We can study how quantum particles combine together under the action of strong interactions and how superfluidity develops. We can use these ultracold atoms to process information and develop new quantum technologies. (Includes INRIM at LENS, connected to Qstar in Arcetri).	40	Massimo Inguscio	quantumgases@lens.unifi.it	http://quantumgases.lens.unifi.it/
Lecce	Istituto di Nanotecnologia - CNR	Scienze fisiche e tecnologie della materia	Advanced Photonics Lab	Experimental	quantum simulation, basic science		We are interested in the quantum properties of exciton-polaritons, hybrid particles formed by the strong coupling of photon and exciton, for the realization of nonlinear quantum devices. We already demonstrated quantum behaviors at the macroscopic level, by reaching Bose-Einstein condensation and superfluidity at room temperature, as well as the entanglement of a photon-polariton pair and single polariton interference. Now, we focus on many body quantum effects in fluids of light, topological properties in engineered materials and nonlinear logic gates for quantum circuits.	18	Daniele Sanvitto	daniele.sanvitto@nanotec.cnr.it	http://polaritonics.nanotec.cnr.it/
Milan	National Research Council (CNR)	Institute for Photonics and Nanotechnologies	FAST Group	Experimental	Quantum Computation, Quantum Communication, Quantum Simulation, Basic science		Our research field is Integrated Quantum Photonics (IQP). IQP is an enabling technology for all quantum photonic topics, from communication to basic science. Through multiple collaborations worldwide we aim to address all of them. Our main technological platform is femtosecond laser writing of integrated photonic circuits. This versatile technology allows unique 3D layouts, rapid prototyping and multimaterial processing. Our activity is funded by several EU projects, including a dedicated ERC AdG.	8	Roberto Osellame	roberto.osellame@cnr.it	http://www.mi.ifn.cnr.it/research/fs-micromachining
Milan	Politecnico di Milano	Mathematics	Quantum Probability	Theoretical	basic science	Quantum stochastic calculus	The group is working in quantum measurement theory and quantum information. In particular the group is developing the theory of quantum measurements in continuous time (quantum trajectories) with applications to photo-detection theory, optomechanical systems, quantum control (measurement based feedback). The group is active also in quantum tomography and measurement uncertainty relations in entropic formulation. In general mathematical tools needed to model quantum open systems are studied and developed, such as quantum stochastic calculus, quantum Markov semigroups, noncommutative potential theory.	7	Alberto Barchielli	alberto.barchielli@polimi.it	https://www.mate.polimi.it/qp/
Milan	University of Milan	Department of Physics 'Aldo Pontremoli'	Applied quantum mechanics (it is theoretical and experimental group))	Theoretical	Quantum communication, quantum computation, quantum simulation, quantum sensing and methrology, basic science	Quantum Optics	Our research aims to enlarge knowledge and to solve problems in fundamental and applied science by using new tools based on quantum physics and quantum technologies and by building-up core competences for the wider exploitation of quantum science and technologies in mainstream engineering. FIELDs OF RESEARCH: quantum sensing and metrology, open quantum systems, quantum communication, quantum and atom optics, quantum simulations, foundations of quantum mechanics, quantum information processing, quantum computation, cold atoms, nonlinear optics, extreme states of matter, exotic atoms.	15	Matteo Paris	matteo.paris@fisica.unimi.it	https://sites.unimi.it/aqm/
Milano	Politecnico di Milano	Dipartimento di Elettronica, Informazione e Bioingegneria	SPADlab	Experimental	Quantum communication, quantum sensing and methrology	Single photon detector	At SPADlab we design, develop, fabricate and characterize Single-Photon Avalanche Diodes (SPADs), which are single-photon detectors fabricated in silicon, InGaAs/InP and germanium. Our research goes from the single pixel to complex single-photon imaging systems.	12	Alberto Tosi	alberto.tosi@polimi.it	https://www.deib.polimi.it/ita/laboratori-deib/dettagli/61
Naples	CNR-SPIN		Optical Quantum Commnunication	Experimental	Quantum communication, basic science		Generation and characterization of multi-partite quantum state. Quantum communication protocols Use of different degree of freedom for enconding and transmitting quantum information		Alberto Porzio	alberto.porzio@spin.cnr.it
Napoli	Università di Napoli Federico II	Dipartimento di Fisica "E.Pancini"	Superconducting Quantum Technologies	Experimental	Quantum communication, quantum computation, basic science	Superconducting Electronic, superconducting qubits, transmons	The research activity of the superconductivity group in Napoli is mostly focused on superconducting electronics, on qubits and transmons, on the interface between quantum and classical components, on novel protocols of control and read-out of qubits. The PhD program develops also in Firenze and Camerino and overall covers more topics: quantum computation, quantum networks and communication, quantum simulation, quantum sensors and metrology with some focus on quantum interfaces and couplers for integrated hybrid quantum devices.	12	Francesco Tafuri	francesco.tafuri@unina.it	http://www.qtlab.unina.it
Padova	Padova University	Department of Physics and Astronomy	Quantum science	Theoretical	quantum computation, quantum simulation, basic science		Tensor network methods, quantum science and technologies, quantum optimal control	6	Simone Montangero	simone.montangero@unipd.it	http://quantum.dfa.unipd.it
Palermo	Università di Palermo	Dipartimento di Fisica e Chimica	Open quantum systems, quantum optics, quantum thermodynamics, complex quantum systems	Theoretical	Quantum communication, quantum computation, quantum simulation, quantum sensing and methrology, basic science		open quantum systems, quantum optics, quantum thermodynamics, quantum machine learning, optomechanical and hybrid mesoscopic system, topological states.	8	Gioacchino Massimo Palma	massimo.palma@unipa.it
Pavia	Università degli Studi di Pavia	Physics	Quantum nanostructures	Theoretical	quantum simulation, basic science		We study the physics of photonic and electronic nanostructures for applications in quantum simulations, quantum photonics, and quantum thermodynamics. We are also interested in the physics of open quantum systems and their applications to the generation of nonclassical states of radiation.	3	Dario Gerace	dario.gerace@unipv.it
Pavia	Università degli studi di Pavia	Dipartimento di fisica	QUit	Theoretical	Quantum communication, quantum computation, quantum simulation, quantum sensing and methrology, basic science	Quantum Foundations	The Group QUit has worked in the field of Quantum information since the very beginning of the discipline, with main focus on designing new quantum measurements and transformations. QUIT pioneered the technique of quantum tomography of states, quantum error correction and transformations, started quantum metrology, introduced the new notion of "quantum comb" for optimizing quantum algorithms and quantum protocols, studied security of quantum cryptographic protocols, found numerous new types of optimal measurements and transformations. QUit has numerous collaborations around the world	14	Giacomo Mauro D'Ariano	dariano@unipv.it	https://www.qubit.it
Pavia	University of Pavia	Physics	Nanomaterial for Quantum Technologies	Experimental	Quantum communication, quantum computation, basic science		We study experimentally the properties of quantum and topological nanostructures, implementing them in electrical and optical devices.	6	Vittorio Bellani	vittorio.bellani@unipv.it	http://fisica.unipv.it/bellani/main.html
Pisa	Istituto Nanoscienze-CNR, NEST Labs		SQEL	Theoretical, Experimental	quantum computation, basic science	Superconducting electronics	Our group focuses on the study of the properties of mesoscopic superconducting devices, ranging from fully metallic to hybrid superconductor-semiconductor systems. Using state of the art cryogenic techniques, we explore condensed matter physics at low temperatures, typically ranging from several Kelvin down to 10 milli Kelvin, both experimentally and theoretically.	17	Francesco Giazotto	francesco.giazotto@sns.it	http://web.nano.cnr.it/sqel/
Pisa	Istituto Nazionale di Ottica (CNR-INO)		Rydberg quantum simulators	Experimental	quantum simulation, basic science		We use cold Rydberg atoms to realize quantum simulators. Specifically, we are interested in transport and percolation of excitations in disordered networks of Rydberg atoms with competing coherent driving and dissipation. In the long run, such systems could be used as quantum co-processors for studying the properties of molecules and for the exploration of emergent phenomena in large ensembles of interacting spin systems.	3	Oliver Morsch	morsch@df.unipi.it	https://fed.ino.it/?page_id=7698&a=52
PIsa	Scuola Normale Superiore	Classe di Scienze	Quantum Information Theory Group	Theoretical	quantum computation, quantum simulation, basic science	Quantum Thermodynamics; Quantum Control; Entanglement Theory	We are interested in many different theoretical aspect of quantum information theory. Part of the research also exploit collaboration with the experimental group of the NEST lab at SNS.	12	Vittorio Giovannetti	vittorio.giovannetti@sns.it	https://www.sns.it/it/condensed-matter-and-quantum-information-theory-group
Pisa	University of Pisa	Physics	Quantum fluids	Theoretical	quantum simulation, basic science		Developing and engineering quantum technologies, mainly (not exclusively) based on quantum gases platforms, with the purpose of conceiving analog quantum simulators and novel paradigms for precision measurements relevant to fundamental physics, and exploring leading-edge pathways to optimize or solve quantum problems that are otherwise non-tractable by present computer machines.	2	Maria Luisa Chiofalo	maria.luisa.chiofalo@unipi.it	https://people.unipi.it/maria_luisa_chiofalo/
Pisa	CNR-NANO, NEST		Terahertz optics and photonics	Experimental	quantum simulation, quantum sensing and methrology, Basic Science		The THz photonics group of Prof. Vitiello, located at the NEST Laboratory (National Enterprise for nanoScience and nanoTechnology) Pisa, Italy, focuses on the design, development and applications of THz quantum cascade lasers; the development of THz quantum nanodetectors based on semiconductor nanowires, 2D materials and vdW heterosctructures; far-infrared metrology; graphene-based photonics; near-field THz microscopy, quantum engineering of photonic devices, quantum technologies with 2D materials. The group targets new concepts and interdisciplinary approaches to unlock the scientific and technological potential of the terahertz spectrum of the electromagnetic radiation.	11	Miriam Serena Vitiello	miriam.vitiello@sns.it	http://thz-photonics.nano.cnr.it
Pisa	Nanoscienze (CNR NANO)	Dipartimento Scienze Fisiche e Tecnologie della Materia	Quantum transport and topological states of matter	Theoretical, Experimental	Quantum Computation, Quantum Sensing and Metrology, Basic Science		The research line aims at the investigation of new topological states of matter and their possible exploitation for novel quantum technological applications, such as topological quantum computation. Both theoretical and experimental studies, based on quantum transport and scanning gate microscopy techniques, focus on integer/fractional quantum Hall systems, hybrid superconductor/semiconductor devices and new phases of matter including majorana bound states and parafermions.	4	Stefan Heun	stefan.heun@nano.cnr.it	http://web.nano.cnr.it/heun/research/
Pisa	Istituto Nanoscienze (CNR NANO)	Dipartimento Scienze Fisiche e Tecnologie della Materia	Topological quantum matter	Theoretical	Quantum Computation, Basic Science		The research line aims at the theoretical investigation of new quantum phenomena, including topological states of matter, for their exploitation in quantum technologies. Several aspects, including non equilibrium physics, are studied with special emphasis on the role of interactions and decoherence. Tight collaborations with experimental groups allow a deeper understanding of quantum transport properties of topological quantum matter.	1	Matteo Carrega	matteo.carrega@cnr.it	https://sites.google.com/site/teocarrega/research-interests
Pisa	Istituto Nanoscienze (CNR NANO)		Quantum transport and thermoelectricity	Theoretical	Quantum Sensing and Metrology, Basic Science		Theory of quantum transport in hybrid nanostructures and graphene; Thermoelectric properties of nanostructures; Transport in topological materials (quantum Hall systems, topological superconductors and insulators); Spintronics; Time-dependent transport; Graphene	4	Fabio Taddei	fabio.taddei@nano.cnr.it
Pozzuoli	Consiglio Nazionale delle Ricerche	Istituto Nazionale di Ottica	Cold molecules	Experimental	quantum sensing and methrology, basic science		Absolute frequency metrology and precision spectroscopy of buffer-gas-cooled ground-state molecules.	3	Pasquale Maddaloni	pasquale.maddaloni@ino.cnr.it
Pozzuoli (Napoli)	Institute of Applied Sciences and Intelligent Systems of CNR (ISASI-CNR)	Department of physical sciences and technologies of matter	SQUID group	Experimental	quantum sensing and methrology, basic science		The research line consists in the study, design, fabrication and characterization of superconducting quantum interferences devices and their applications to biomagnetim, nanomagnetism, magnetic microscopy, current sensing and ultra high sensitive magnetometry.	6	Carmine Granata	carmine.granata@cnr.it	http://www.isasi.cnr.it/?page_id=964
Rende (CS)	Unviersità della Calabria	Fisica	Fisica Quantistica della Materia	Theoretical, Experimental	Basic science	Quantum thermodynamics	- Decoherence and Open quantum systems; - Quantum Coherence and Correlations; - Quantum Thermodynamics; - Spin systems.	3	Francesco Plastina	francesco.plastina@fis.unical.it	https://www.unical.it/portale/strutture/dipartimenti_240/fisica/ricerca/quantistica/
Rome	Roma Tre	Science	NEw Quantum Optics group	Experimental	basic science		1. Multiparameter quantum 2. Information thermodynamics 3. Time-frequency quantum state characterisation	3	M. Barbieri	marco.barbieri@uniroma3.it	https://web.scienze.uniroma3.it/neqo/
Salerno	Università degli Studi di Salerno	Department of Physics "E.R. Caianiello"	Quantum transport and quantum simulations	Theoretical	quantum simulation, basic science		The research is devoted to the study of quantum transport in nanostructures with topological properties and to the quantum simulation of synthetic matter (either cold atoms systems with short and long range interactions and spin-based models).	4	Roberta Citro	rocitro@unisa.it	https://www.df.unisa.it/ricerca/progetti-finanziati
Trento	University of Trento	Physics	Nanoscience Laboratory	Experimental	Quantum communication, quantum simulation, quantum sensing and methrology		Reasearch on QRNG, single particle entanglement for QKD, source of heralded single photons in integrated quantum photonics for quantum measurements, quantum simulator based on entangle photon states generated by FWM in silicon photonics, SPDC based on lateral p-i-n junctions in silicon for MIR	10	Lorenzo Pavesi	lorenzo.pavesi@unitn.it	http://nanolab.physics.unitn.it/
Trieste	SISSA	Physics	Statistical Physics	Theoretical	Quantum communication, quantum computation, quantum simulation, quantum sensing and methrology, basic science		Quantum systems; quantum quenches; quantum field theory; quantum mechanics and number theory; quantum computation; cold atom; quantum simulation	30	Prof. Giuseppe Mussardo	mussardo@sissa.it	https://www.statphys.sissa.it/wordpress/
Bari	Università degli studi di Bari Aldo Moro	Dipartimento Interateneo di Fisica (Università di Bari e Politecnico di Bari); Dipartimento di Chimica	Condensed Matter Physics and Photonics	Theoretical, Experimental	Quantum Sensing and Metrology		- Quantum interference effects in self-assembled molecular monolayers and their application to electrolyte-gated single-molecule transistor sensors. - Single-molecule metrology via room temperature collective effects in functionalized surfaces and interfaces; - Graphene based electrolyte-gated modulators for quantum cascade laser frequency combs.	12	Gaetano Scamarcio	gaetano.scamarcio@uniba.it	https://www.uniba.it/docenti/scamarcio-gaetano/curriculum/curriculum-1
Firenze	Istituto Nazionale di Ottica, CNR-INO	Dipartimento di Scienze fisiche e tecnologie della materia, CNR	Quantum Science and Technology with Photons	Experimental	Quantum Communication, Quantum Computation, Quantum Simulation, Quantum Sensing and Metrology, Basic Science		The group deals with fundamental and applied quantum science with photons. Some of the main activities involve: - photon-by-photon engineering of nonclassical optical quantum states and operations; - quantum nanophotonics with emitters based on single molecules as non-classical light sources, non-linear elements and quantum sensors; - tailoring of the nonclassical multimode emission from quantum cascade lasers as a new paradigm for quantum simulation and computation; - development of practical QKD schemes for secure quantum communications in optical fiber networks	15	Marco Bellini	marco.bellini@ino.cnr.it	http://research.ino.it/Groups/extreme_light/ http://www.quantumnanophotonics-lab.it/ https://www.qombs-project.eu/index.php/Home
Trento	Fondazione Bruno Kessler	Centre for Materials and Microsystems	Functional Materials and Photonic Structures	Experimental	Quantum Simulation, Quantum Sensing and Metrology, Basic Science		Integrated photonics for Quantum Technologies: 1. Entangled photon sources and generation 2. On-chip single photon detection Defect centers in Diamond: 1. Quantum sensing with Diamond 2. Diamond-based single photon emitters	12	Georg Pucker	pucker@fbk.eu	http://cmm.fbk.eu
Rome	Sapienza Università di Roma	Department of Physics	Quantum Information Lab	Theoretical, Experimental	Quantum Communication, Quantum Computation, Quantum Simulation, Basic Science		The Quantum Information Lab is a research team of the Physics Department of Sapienza University of Rome. Our research is focused on the fields of Quantum Optics and Quantum Information. The manipulation of quantum states of light is the fundamental resource to investigate the foundations of quantum mechanics and to build up a revolutionary technology based on quantum phenomena.	15	Fabio Sciarrino	fabio.sciarrino@uniroma1.it	http://www.quantumlab.it