• About SNS

    The Scuola Normale Superiore is a public institute for higher education that in its two centuries of life has earned itself a special place, both in Italy and abroad, a place characterised by merit, talent and scientific rigour.  Two types of course are available: the undergraduate course and the PhD course.The teaching activity is distributed among three academic structures: the Faculty of Humanities, the Faculty of Mathematical and Natural Sciences, placed in Pisa, and the Institute of Humanities and Social Sciences, located in Palazzo Strozzi in Florence. 

  • Admission

    The evaluation for entrance to the first year of the undergraduate course does not include the high school leaving certificate, and the bachelor's degree is not taken into consideration in the entrance examination for the fourth year course. For each PhD course, candidates’ level of competence, talent, motivations and aptitudes to scientific research will be assessed on the basis of their qualifications and research project and an interview.

  • Academics

    The Scuola Normale Superiore offers two types of course: the undergraduate course, leading to first and second level university degrees, and the PhD course, the international equivalent of the Italian Dottorato di ricerca.The teaching and research activity is distributed among three academic structures: the Faculty of Humanities, the Faculty of Mathematical and Natural Sciences, and the Institute of Humanities and Social Sciences.The first two academic structures, housed at the Pisa site, organize courses for both the  undergraduate course and the PhD course. The Institute of Humanities and Social Sciences, situated in Palazzo Strozzi in Florence, deals only with the PhD course.

  • Research

    A highly qualifying feature of the Normale way is the strong link between teaching and research that is a characteristic of both the undergraduate and the graduate programmes of the Scuola. The research structures of the two Faculties welcome students with a relevant study interest, enabling them to collaborate in a mature way with the activities of the researchers.

  • International

    The Scuola Normale is an institute of a decidedly international nature. Examinations for admission to the undergraduate degree course and for the PhD course are open to all citizens worldwide. A certain number of places on the PhD course are reserved for students from other countries. During the pre laurea and  post lauream teaching courses, study and research programmes are made available at overseas universities and research centres with which the Scuola forms an intense network of collaboration.  The doctorate course in particular is taught in a veritable graduate school in line with the highest international standards. 

Research activities

Physics has always been at the heart of SNS scientific research with its highly selected faculty and students, as witnessed by the two former SNS Alumni and Nobel Laureates Enrico Fermi and Carlo Rubbia, among many other outstanding physicists. Graduate students have the opportunity to work daily in close contact with leading experts on a wide range of scales, from sub-atomic physics to cosmology, pursuing either theoretical or experimental research. Interdisciplinary work with other areas (mathematics, chemistry, biology) is warmly encouraged. SNS provides an inclusive, gender-balanced and international (all courses are in English) environment attracting the best talents from all over the world (currently, about 40% of students are international) in the beautiful Tuscany region where Pisa is located. At present research at the Scuola Normale Superiore covers the following areas: Cosmology and Astrophysics, High Energy Physics, Condensed Matter. These are described below.
Research Areas
Boosted by the recent experimental and theoretical advances that have enabled the exploration of the cosmic frontiers up to an epoch when the Universe was only a few percent of its current age, research in Cosmology and Astrophysics focuses on the physical processes underlying cosmic evolution. The research is based on a combination of theoretical investigations, supercomputing simulations and experimental data. More specifically, the research group in this area works on the formation of the first galaxies, black holes and their impact and structure formation. We are also involved in the area of "21 cm line cosmology", with the aim of studying cosmic reionization and the nature of dark matter. The research is performed in the framework of large international collaborations as the HST, SKA, and ALMA and in collaboration with INAF (Istituto Nazionale di Astrofisica). Recently, new research lines, as Astrobiology, have been launched.
Research in Physics of Fundamental Interactions has a long tradition at Scuola Normale. It is done in complete synergy with INFN (Istituto Nazionale di Fisica Nucleare). LHC activity at CERN and the experiments to search for dark matter make the future of high-energy physics very exciting. The most important question has been triggered by the recent discovery of the Higgs Boson: we do not know yet if this particle is the long-awaited Higgs Boson of the Standard Model or the first particle of a new physics sector that could allow us to make the first step towards the resolution of open problems at the electro-weak scale. On a more formal level the central issue is a deeper understanding of the theory of gravitational interaction. In addition to these theoretical and phenomenological activities, researchers and SNS students are engaged in the CMS and LHCb experiments at the Large Hadron Collider at CERN covering both direct searches of physics beyond the Standard Model and precision measurements.
Condensed Matter Physics at SNS includes various research areas, ranging from the physics of metals and semiconductors to superconductors. These areas share a deep interest in the physics of nanostructures. Our scientists are very much interested in new materials, as e.g. graphene. Condensed matter research at our National Enterprise for nanoScience and nanoTechnology (NEST) laboratory covers low temperature physics, transport in nanostructures, and nano-photonics. On the theoretical side, most of the attention has been devoted to the study of many-body systems, quantum transport, quantum optics, quantum information and electronic/optical properties of semiconductors. A key feature of condensed matter research at SNS is to combine fundamental physics research with its impact on emerging technologies.
A detailed description of the research activities in physics @SNS can be found at http://www.sns.it/en/ricerca/scienze/

Teaching activities

Teaching is divided into lecture and seminar courses. The graduate students in Physics will annually agree with the PhD Coordinator a study plan to be presented to the Faculty Board. Such document will specify the planned research and education activities for the relevant academic year. PhD students are expected to take at least three courses and to pass the corresponding exams. The courses should be chosen such as to enlarge the student physics background and deepen specific aspects related to the PhD Thesis project. At the end of the first year students are expected, in close consultation with the Coordinator and with approval from the Faculty Board, to choose the Thesis supervisor and project. At the end of the second year students should present a written report (called pre-Thesis) concerning the research done and the results achieved so far, together with any publications produced. The pre-Thesis work will be discussed in an oral presentation in front of a panel of experts appointed by the Faculty Board. Upon successful performance, the student will be admitted to the third year, during which (s)he is expected to complete the research and write a fully-fledged Thesis. According to research needs, students are encouraged to spend periods of study and research at Italian and foreign institutions. Under motivated conditions, an extension period of the fellowship beyond the standard 3 years can be granted.

Courses and other teaching activities 2016-2017

SSD: FIS/01 - Experimental Physics
Total hours: 40
SSD: FIS/03 - Material Physics
Total hours: 40
SSD: FIS/07 - Applied Physics (Cultural Heritage, Environment, Biology And Medicine)
Total hours: 40
SSD: FIS/05 - Astronomy And Astrophysics
Total hours: 40

Courses of the undergraduate degree course also valid for Ph.D students 2016-2017

SSD: FIS/01 - Experimental Physics
Total hours: 40
SSD: FIS/02 - Theoretical Physics, Mathematical Models And Methods
Total hours: 40